xref: /openbmc/linux/drivers/accel/habanalabs/gaudi2/gaudi2_security.c (revision 94ab3170)

// SPDX-License-Identifier: GPL-2.0

/*
 * Copyright 2020-2022 HabanaLabs, Ltd.
 * All Rights Reserved.
 */

#include "gaudi2P.h"
#include "../include/gaudi2/asic_reg/gaudi2_regs.h"

#define UNSET_GLBL_SEC_BIT(array, b) ((array)[((b) / 32)] |= (1 << ((b) % 32)))

#define SPECIAL_GLBL_ERR_CAUSE_APB_PRIV_RD PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_APB_PRIV_RD_MASK
#define SPECIAL_GLBL_ERR_CAUSE_APB_SEC_RD PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_APB_SEC_RD_MASK
#define SPECIAL_GLBL_ERR_CAUSE_APB_PRIV_WR PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_APB_PRIV_WR_MASK
#define SPECIAL_GLBL_ERR_CAUSE_APB_SEC_WR PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_APB_SEC_WR_MASK
#define SPECIAL_GLBL_ERR_CAUSE_EXT_SEC_WR PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_EXT_SEC_WR_MASK
#define SPECIAL_GLBL_ERR_CAUSE_APB_UNMAPPED_RD \
		PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_APB_UNMAPPED_RD_MASK
#define SPECIAL_GLBL_ERR_CAUSE_APB_UNMAPPED_WR \
		PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_APB_UNMAPPED_WR_MASK
#define SPECIAL_GLBL_ERR_CAUSE_EXT_UNMAPPED_WR \
		PDMA0_CORE_SPECIAL_GLBL_ERR_CAUSE_EXT_UNMAPPED_WR_MASK

/* LBW RR */
#define SFT_NUM_OF_LBW_RTR		1
#define SFT_LBW_RTR_OFFSET		0
#define RR_LBW_LONG_MASK		0x7FFFFFFull
#define RR_LBW_SHORT_MASK		0x7FFF000ull

/* HBW RR */
#define SFT_NUM_OF_HBW_RTR		2
#define RR_HBW_SHORT_LO_MASK		0xFFFFFFFF000ull
#define RR_HBW_SHORT_HI_MASK		0xF00000000000ull
#define RR_HBW_LONG_LO_MASK		0xFFFFFFFF000ull
#define RR_HBW_LONG_HI_MASK		0xFFFFF00000000000ull

struct rr_config {
	u64 min;
	u64 max;
	u32 index;
	u8 type;
};

struct gaudi2_atypical_bp_blocks {
	u32 mm_block_base_addr;
	u32 block_size;
	u32 glbl_sec_offset;
	u32 glbl_sec_length;
};

static const struct gaudi2_atypical_bp_blocks gaudi2_pb_dcr0_sm_objs = {
	mmDCORE0_SYNC_MNGR_OBJS_BASE,
	128 * 1024,
	SM_OBJS_PROT_BITS_OFFS,
	640
};

static const u32 gaudi2_pb_sft0[] = {
	mmSFT0_HBW_RTR_IF0_RTR_CTRL_BASE,
	mmSFT0_HBW_RTR_IF0_RTR_H3_BASE,
	mmSFT0_HBW_RTR_IF0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmSFT0_HBW_RTR_IF0_ADDR_DEC_HBW_BASE,
	mmSFT0_HBW_RTR_IF1_RTR_CTRL_BASE,
	mmSFT0_HBW_RTR_IF1_RTR_H3_BASE,
	mmSFT0_HBW_RTR_IF1_MSTR_IF_RR_SHRD_HBW_BASE,
	mmSFT0_HBW_RTR_IF1_ADDR_DEC_HBW_BASE,
	mmSFT0_LBW_RTR_IF_RTR_CTRL_BASE,
	mmSFT0_LBW_RTR_IF_RTR_H3_BASE,
	mmSFT0_LBW_RTR_IF_MSTR_IF_RR_SHRD_HBW_BASE,
	mmSFT0_LBW_RTR_IF_ADDR_DEC_HBW_BASE,
	mmSFT0_BASE,
};

static const u32 gaudi2_pb_dcr0_hif[] = {
	mmDCORE0_HIF0_BASE,
};

static const u32 gaudi2_pb_dcr0_rtr0[] = {
	mmDCORE0_RTR0_CTRL_BASE,
	mmDCORE0_RTR0_H3_BASE,
	mmDCORE0_RTR0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmDCORE0_RTR0_ADD_DEC_HBW_BASE,
	mmDCORE0_RTR0_BASE,
	mmDCORE0_RTR0_DBG_ADDR_BASE,
};

static const u32 gaudi2_pb_dcr0_hmmu0[] = {
	mmDCORE0_HMMU0_MMU_BASE,
	mmDCORE0_HMMU0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmDCORE0_HMMU0_SCRAMB_OUT_BASE,
	mmDCORE0_HMMU0_STLB_BASE,
};

static const u32 gaudi2_pb_cpu_if[] = {
	mmCPU_IF_BASE,
};

static const u32 gaudi2_pb_cpu[] = {
	mmCPU_CA53_CFG_BASE,
	mmCPU_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_kdma[] = {
	mmARC_FARM_KDMA_BASE,
	mmARC_FARM_KDMA_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_pdma0[] = {
	mmPDMA0_CORE_BASE,
	mmPDMA0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPDMA0_QM_BASE,
};

static const u32 gaudi2_pb_pdma0_arc[] = {
	mmPDMA0_QM_ARC_AUX_BASE,
};

static const struct range gaudi2_pb_pdma0_arc_unsecured_regs[] = {
	{mmPDMA0_QM_ARC_AUX_RUN_HALT_REQ, mmPDMA0_QM_ARC_AUX_RUN_HALT_ACK},
	{mmPDMA0_QM_ARC_AUX_CLUSTER_NUM, mmPDMA0_QM_ARC_AUX_WAKE_UP_EVENT},
	{mmPDMA0_QM_ARC_AUX_ARC_RST_REQ, mmPDMA0_QM_ARC_AUX_CID_OFFSET_7},
	{mmPDMA0_QM_ARC_AUX_SCRATCHPAD_0, mmPDMA0_QM_ARC_AUX_INFLIGHT_LBU_RD_CNT},
	{mmPDMA0_QM_ARC_AUX_CBU_EARLY_BRESP_EN, mmPDMA0_QM_ARC_AUX_CBU_EARLY_BRESP_EN},
	{mmPDMA0_QM_ARC_AUX_LBU_EARLY_BRESP_EN, mmPDMA0_QM_ARC_AUX_LBU_EARLY_BRESP_EN},
	{mmPDMA0_QM_ARC_AUX_DCCM_QUEUE_BASE_ADDR_0, mmPDMA0_QM_ARC_AUX_DCCM_QUEUE_ALERT_MSG},
	{mmPDMA0_QM_ARC_AUX_DCCM_Q_PUSH_FIFO_CNT, mmPDMA0_QM_ARC_AUX_QMAN_ARC_CQ_SHADOW_CI},
	{mmPDMA0_QM_ARC_AUX_ARC_AXI_ORDERING_WR_IF_CNT, mmPDMA0_QM_ARC_AUX_MME_ARC_UPPER_DCCM_EN},
};

static const u32 gaudi2_pb_pdma0_unsecured_regs[] = {
	mmPDMA0_CORE_CTX_AXUSER_HB_WR_REDUCTION,
	mmPDMA0_CORE_CTX_WR_COMP_ADDR_HI,
	mmPDMA0_CORE_CTX_WR_COMP_ADDR_LO,
	mmPDMA0_CORE_CTX_WR_COMP_WDATA,
	mmPDMA0_CORE_CTX_SRC_BASE_LO,
	mmPDMA0_CORE_CTX_SRC_BASE_HI,
	mmPDMA0_CORE_CTX_DST_BASE_LO,
	mmPDMA0_CORE_CTX_DST_BASE_HI,
	mmPDMA0_CORE_CTX_SRC_TSIZE_0,
	mmPDMA0_CORE_CTX_SRC_TSIZE_1,
	mmPDMA0_CORE_CTX_SRC_TSIZE_2,
	mmPDMA0_CORE_CTX_SRC_TSIZE_3,
	mmPDMA0_CORE_CTX_SRC_TSIZE_4,
	mmPDMA0_CORE_CTX_SRC_STRIDE_1,
	mmPDMA0_CORE_CTX_SRC_STRIDE_2,
	mmPDMA0_CORE_CTX_SRC_STRIDE_3,
	mmPDMA0_CORE_CTX_SRC_STRIDE_4,
	mmPDMA0_CORE_CTX_SRC_OFFSET_LO,
	mmPDMA0_CORE_CTX_SRC_OFFSET_HI,
	mmPDMA0_CORE_CTX_DST_TSIZE_0,
	mmPDMA0_CORE_CTX_DST_TSIZE_1,
	mmPDMA0_CORE_CTX_DST_TSIZE_2,
	mmPDMA0_CORE_CTX_DST_TSIZE_3,
	mmPDMA0_CORE_CTX_DST_TSIZE_4,
	mmPDMA0_CORE_CTX_DST_STRIDE_1,
	mmPDMA0_CORE_CTX_DST_STRIDE_2,
	mmPDMA0_CORE_CTX_DST_STRIDE_3,
	mmPDMA0_CORE_CTX_DST_STRIDE_4,
	mmPDMA0_CORE_CTX_DST_OFFSET_LO,
	mmPDMA0_CORE_CTX_DST_OFFSET_HI,
	mmPDMA0_CORE_CTX_COMMIT,
	mmPDMA0_CORE_CTX_CTRL,
	mmPDMA0_CORE_CTX_TE_NUMROWS,
	mmPDMA0_CORE_CTX_IDX,
	mmPDMA0_CORE_CTX_IDX_INC,
	mmPDMA0_QM_CQ_CFG0_0,
	mmPDMA0_QM_CQ_CFG0_1,
	mmPDMA0_QM_CQ_CFG0_2,
	mmPDMA0_QM_CQ_CFG0_3,
	mmPDMA0_QM_CQ_CFG0_4,
	mmPDMA0_QM_CP_FENCE0_RDATA_0,
	mmPDMA0_QM_CP_FENCE0_RDATA_1,
	mmPDMA0_QM_CP_FENCE0_RDATA_2,
	mmPDMA0_QM_CP_FENCE0_RDATA_3,
	mmPDMA0_QM_CP_FENCE0_RDATA_4,
	mmPDMA0_QM_CP_FENCE1_RDATA_0,
	mmPDMA0_QM_CP_FENCE1_RDATA_1,
	mmPDMA0_QM_CP_FENCE1_RDATA_2,
	mmPDMA0_QM_CP_FENCE1_RDATA_3,
	mmPDMA0_QM_CP_FENCE1_RDATA_4,
	mmPDMA0_QM_CP_FENCE2_RDATA_0,
	mmPDMA0_QM_CP_FENCE2_RDATA_1,
	mmPDMA0_QM_CP_FENCE2_RDATA_2,
	mmPDMA0_QM_CP_FENCE2_RDATA_3,
	mmPDMA0_QM_CP_FENCE2_RDATA_4,
	mmPDMA0_QM_CP_FENCE3_RDATA_0,
	mmPDMA0_QM_CP_FENCE3_RDATA_1,
	mmPDMA0_QM_CP_FENCE3_RDATA_2,
	mmPDMA0_QM_CP_FENCE3_RDATA_3,
	mmPDMA0_QM_CP_FENCE3_RDATA_4,
	mmPDMA0_QM_CP_FENCE0_CNT_0,
	mmPDMA0_QM_CP_FENCE0_CNT_1,
	mmPDMA0_QM_CP_FENCE0_CNT_2,
	mmPDMA0_QM_CP_FENCE0_CNT_3,
	mmPDMA0_QM_CP_FENCE0_CNT_4,
	mmPDMA0_QM_CP_FENCE1_CNT_0,
	mmPDMA0_QM_CP_FENCE1_CNT_1,
	mmPDMA0_QM_CP_FENCE1_CNT_2,
	mmPDMA0_QM_CP_FENCE1_CNT_3,
	mmPDMA0_QM_CP_FENCE1_CNT_4,
	mmPDMA0_QM_CP_FENCE2_CNT_0,
	mmPDMA0_QM_CP_FENCE2_CNT_1,
	mmPDMA0_QM_CP_FENCE2_CNT_2,
	mmPDMA0_QM_CP_FENCE2_CNT_3,
	mmPDMA0_QM_CP_FENCE2_CNT_4,
	mmPDMA0_QM_CP_FENCE3_CNT_0,
	mmPDMA0_QM_CP_FENCE3_CNT_1,
	mmPDMA0_QM_CP_FENCE3_CNT_2,
	mmPDMA0_QM_CP_FENCE3_CNT_3,
	mmPDMA0_QM_CP_FENCE3_CNT_4,
	mmPDMA0_QM_CQ_PTR_LO_0,
	mmPDMA0_QM_CQ_PTR_HI_0,
	mmPDMA0_QM_CQ_TSIZE_0,
	mmPDMA0_QM_CQ_CTL_0,
	mmPDMA0_QM_CQ_PTR_LO_1,
	mmPDMA0_QM_CQ_PTR_HI_1,
	mmPDMA0_QM_CQ_TSIZE_1,
	mmPDMA0_QM_CQ_CTL_1,
	mmPDMA0_QM_CQ_PTR_LO_2,
	mmPDMA0_QM_CQ_PTR_HI_2,
	mmPDMA0_QM_CQ_TSIZE_2,
	mmPDMA0_QM_CQ_CTL_2,
	mmPDMA0_QM_CQ_PTR_LO_3,
	mmPDMA0_QM_CQ_PTR_HI_3,
	mmPDMA0_QM_CQ_TSIZE_3,
	mmPDMA0_QM_CQ_CTL_3,
	mmPDMA0_QM_CQ_PTR_LO_4,
	mmPDMA0_QM_CQ_PTR_HI_4,
	mmPDMA0_QM_CQ_TSIZE_4,
	mmPDMA0_QM_CQ_CTL_4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR0_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR0_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR1_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR1_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR2_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR2_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR3_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR3_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR4_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR4_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR5_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR5_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR6_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR6_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR7_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR7_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR8_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR8_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR9_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR9_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR10_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR10_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR11_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR11_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR12_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR12_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR13_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR13_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR14_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR14_BASE + 4,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR15_BASE,
	mmPDMA0_QM_QMAN_WR64_BASE_ADDR15_BASE + 4,
	mmPDMA0_QM_ARC_CQ_PTR_LO,
	mmPDMA0_QM_ARC_CQ_PTR_LO_STS,
	mmPDMA0_QM_ARC_CQ_PTR_HI,
	mmPDMA0_QM_ARC_CQ_PTR_HI_STS,
	mmPDMA0_QM_ARB_CFG_0,
	mmPDMA0_QM_ARB_MST_QUIET_PER,
	mmPDMA0_QM_ARB_CHOICE_Q_PUSH,
	mmPDMA0_QM_ARB_WRR_WEIGHT_0,
	mmPDMA0_QM_ARB_WRR_WEIGHT_1,
	mmPDMA0_QM_ARB_WRR_WEIGHT_2,
	mmPDMA0_QM_ARB_WRR_WEIGHT_3,
	mmPDMA0_QM_ARB_BASE_LO,
	mmPDMA0_QM_ARB_BASE_HI,
	mmPDMA0_QM_ARB_MST_SLAVE_EN,
	mmPDMA0_QM_ARB_MST_SLAVE_EN_1,
	mmPDMA0_QM_ARB_MST_CRED_INC,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_0,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_1,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_2,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_3,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_4,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_5,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_6,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_7,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_8,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_9,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_10,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_11,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_12,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_13,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_14,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_15,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_16,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_17,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_18,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_19,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_20,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_21,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_22,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_23,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_24,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_25,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_26,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_27,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_28,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_29,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_30,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_31,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_32,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_33,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_34,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_35,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_36,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_37,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_38,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_39,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_40,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_41,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_42,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_43,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_44,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_45,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_46,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_47,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_48,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_49,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_50,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_51,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_52,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_53,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_54,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_55,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_56,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_57,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_58,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_59,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_60,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_61,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_62,
	mmPDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_63,
	mmPDMA0_QM_ARB_SLV_ID,
	mmPDMA0_QM_ARB_SLV_MASTER_INC_CRED_OFST,
	mmPDMA0_QM_ARC_CQ_CFG0,
	mmPDMA0_QM_CQ_IFIFO_CI_0,
	mmPDMA0_QM_CQ_IFIFO_CI_1,
	mmPDMA0_QM_CQ_IFIFO_CI_2,
	mmPDMA0_QM_CQ_IFIFO_CI_3,
	mmPDMA0_QM_CQ_IFIFO_CI_4,
	mmPDMA0_QM_ARC_CQ_IFIFO_CI,
	mmPDMA0_QM_CQ_CTL_CI_0,
	mmPDMA0_QM_CQ_CTL_CI_1,
	mmPDMA0_QM_CQ_CTL_CI_2,
	mmPDMA0_QM_CQ_CTL_CI_3,
	mmPDMA0_QM_CQ_CTL_CI_4,
	mmPDMA0_QM_ARC_CQ_CTL_CI,
	mmPDMA0_QM_ARC_CQ_TSIZE,
	mmPDMA0_QM_ARC_CQ_CTL,
	mmPDMA0_QM_CP_SWITCH_WD_SET,
	mmPDMA0_QM_CP_EXT_SWITCH,
	mmPDMA0_QM_CP_PRED_0,
	mmPDMA0_QM_CP_PRED_1,
	mmPDMA0_QM_CP_PRED_2,
	mmPDMA0_QM_CP_PRED_3,
	mmPDMA0_QM_CP_PRED_4,
	mmPDMA0_QM_CP_PRED_UPEN_0,
	mmPDMA0_QM_CP_PRED_UPEN_1,
	mmPDMA0_QM_CP_PRED_UPEN_2,
	mmPDMA0_QM_CP_PRED_UPEN_3,
	mmPDMA0_QM_CP_PRED_UPEN_4,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_LO_0,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_LO_1,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_LO_2,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_LO_3,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_LO_4,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_HI_0,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_HI_1,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_HI_2,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_HI_3,
	mmPDMA0_QM_CP_MSG_BASE0_ADDR_HI_4,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_LO_0,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_LO_1,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_LO_2,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_LO_3,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_LO_4,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_HI_0,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_HI_1,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_HI_2,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_HI_3,
	mmPDMA0_QM_CP_MSG_BASE1_ADDR_HI_4,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_LO_0,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_LO_1,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_LO_2,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_LO_3,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_LO_4,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_HI_0,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_HI_1,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_HI_2,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_HI_3,
	mmPDMA0_QM_CP_MSG_BASE2_ADDR_HI_4,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_LO_0,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_LO_1,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_LO_2,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_LO_3,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_LO_4,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_HI_0,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_HI_1,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_HI_2,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_HI_3,
	mmPDMA0_QM_CP_MSG_BASE3_ADDR_HI_4,
	mmPDMA0_QM_ARC_CQ_IFIFO_MSG_BASE_LO,
	mmPDMA0_QM_ARC_CQ_CTL_MSG_BASE_LO,
	mmPDMA0_QM_CQ_IFIFO_MSG_BASE_LO,
	mmPDMA0_QM_CQ_CTL_MSG_BASE_LO
};

static const u32 gaudi2_pb_dcr0_edma0[] = {
	mmDCORE0_EDMA0_CORE_BASE,
	mmDCORE0_EDMA0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmDCORE0_EDMA0_QM_BASE,
};

static const u32 gaudi2_pb_dcr0_edma0_arc[] = {
	mmDCORE0_EDMA0_QM_ARC_AUX_BASE,
};

static const struct range gaudi2_pb_dcr0_edma0_arc_unsecured_regs[] = {
	{mmDCORE0_EDMA0_QM_ARC_AUX_RUN_HALT_REQ, mmDCORE0_EDMA0_QM_ARC_AUX_RUN_HALT_ACK},
	{mmDCORE0_EDMA0_QM_ARC_AUX_CLUSTER_NUM, mmDCORE0_EDMA0_QM_ARC_AUX_WAKE_UP_EVENT},
	{mmDCORE0_EDMA0_QM_ARC_AUX_ARC_RST_REQ, mmDCORE0_EDMA0_QM_ARC_AUX_CID_OFFSET_7},
	{mmDCORE0_EDMA0_QM_ARC_AUX_SCRATCHPAD_0, mmDCORE0_EDMA0_QM_ARC_AUX_INFLIGHT_LBU_RD_CNT},
	{mmDCORE0_EDMA0_QM_ARC_AUX_CBU_EARLY_BRESP_EN,
		mmDCORE0_EDMA0_QM_ARC_AUX_CBU_EARLY_BRESP_EN},
	{mmDCORE0_EDMA0_QM_ARC_AUX_LBU_EARLY_BRESP_EN,
		mmDCORE0_EDMA0_QM_ARC_AUX_LBU_EARLY_BRESP_EN},
	{mmDCORE0_EDMA0_QM_ARC_AUX_DCCM_QUEUE_BASE_ADDR_0,
		mmDCORE0_EDMA0_QM_ARC_AUX_DCCM_QUEUE_ALERT_MSG},
	{mmDCORE0_EDMA0_QM_ARC_AUX_DCCM_Q_PUSH_FIFO_CNT,
		mmDCORE0_EDMA0_QM_ARC_AUX_QMAN_ARC_CQ_SHADOW_CI},
	{mmDCORE0_EDMA0_QM_ARC_AUX_ARC_AXI_ORDERING_WR_IF_CNT,
		mmDCORE0_EDMA0_QM_ARC_AUX_MME_ARC_UPPER_DCCM_EN},
};

static const u32 gaudi2_pb_dcr0_edma0_unsecured_regs[] = {
	mmDCORE0_EDMA0_CORE_CTX_AXUSER_HB_WR_REDUCTION,
	mmDCORE0_EDMA0_CORE_CTX_WR_COMP_ADDR_HI,
	mmDCORE0_EDMA0_CORE_CTX_WR_COMP_ADDR_LO,
	mmDCORE0_EDMA0_CORE_CTX_WR_COMP_WDATA,
	mmDCORE0_EDMA0_CORE_CTX_SRC_BASE_LO,
	mmDCORE0_EDMA0_CORE_CTX_SRC_BASE_HI,
	mmDCORE0_EDMA0_CORE_CTX_DST_BASE_LO,
	mmDCORE0_EDMA0_CORE_CTX_DST_BASE_HI,
	mmDCORE0_EDMA0_CORE_CTX_SRC_TSIZE_0,
	mmDCORE0_EDMA0_CORE_CTX_SRC_TSIZE_1,
	mmDCORE0_EDMA0_CORE_CTX_SRC_TSIZE_2,
	mmDCORE0_EDMA0_CORE_CTX_SRC_TSIZE_3,
	mmDCORE0_EDMA0_CORE_CTX_SRC_TSIZE_4,
	mmDCORE0_EDMA0_CORE_CTX_SRC_STRIDE_1,
	mmDCORE0_EDMA0_CORE_CTX_SRC_STRIDE_2,
	mmDCORE0_EDMA0_CORE_CTX_SRC_STRIDE_3,
	mmDCORE0_EDMA0_CORE_CTX_SRC_STRIDE_4,
	mmDCORE0_EDMA0_CORE_CTX_SRC_OFFSET_LO,
	mmDCORE0_EDMA0_CORE_CTX_SRC_OFFSET_HI,
	mmDCORE0_EDMA0_CORE_CTX_DST_TSIZE_0,
	mmDCORE0_EDMA0_CORE_CTX_DST_TSIZE_1,
	mmDCORE0_EDMA0_CORE_CTX_DST_TSIZE_2,
	mmDCORE0_EDMA0_CORE_CTX_DST_TSIZE_3,
	mmDCORE0_EDMA0_CORE_CTX_DST_TSIZE_4,
	mmDCORE0_EDMA0_CORE_CTX_DST_STRIDE_1,
	mmDCORE0_EDMA0_CORE_CTX_DST_STRIDE_2,
	mmDCORE0_EDMA0_CORE_CTX_DST_STRIDE_3,
	mmDCORE0_EDMA0_CORE_CTX_DST_STRIDE_4,
	mmDCORE0_EDMA0_CORE_CTX_DST_OFFSET_LO,
	mmDCORE0_EDMA0_CORE_CTX_DST_OFFSET_HI,
	mmDCORE0_EDMA0_CORE_CTX_COMMIT,
	mmDCORE0_EDMA0_CORE_CTX_CTRL,
	mmDCORE0_EDMA0_CORE_CTX_TE_NUMROWS,
	mmDCORE0_EDMA0_CORE_CTX_IDX,
	mmDCORE0_EDMA0_CORE_CTX_IDX_INC,
	mmDCORE0_EDMA0_CORE_RD_LBW_RATE_LIM_CFG,
	mmDCORE0_EDMA0_QM_CQ_CFG0_0,
	mmDCORE0_EDMA0_QM_CQ_CFG0_1,
	mmDCORE0_EDMA0_QM_CQ_CFG0_2,
	mmDCORE0_EDMA0_QM_CQ_CFG0_3,
	mmDCORE0_EDMA0_QM_CQ_CFG0_4,
	mmDCORE0_EDMA0_QM_CP_FENCE0_RDATA_0,
	mmDCORE0_EDMA0_QM_CP_FENCE0_RDATA_1,
	mmDCORE0_EDMA0_QM_CP_FENCE0_RDATA_2,
	mmDCORE0_EDMA0_QM_CP_FENCE0_RDATA_3,
	mmDCORE0_EDMA0_QM_CP_FENCE0_RDATA_4,
	mmDCORE0_EDMA0_QM_CP_FENCE1_RDATA_0,
	mmDCORE0_EDMA0_QM_CP_FENCE1_RDATA_1,
	mmDCORE0_EDMA0_QM_CP_FENCE1_RDATA_2,
	mmDCORE0_EDMA0_QM_CP_FENCE1_RDATA_3,
	mmDCORE0_EDMA0_QM_CP_FENCE1_RDATA_4,
	mmDCORE0_EDMA0_QM_CP_FENCE2_RDATA_0,
	mmDCORE0_EDMA0_QM_CP_FENCE2_RDATA_1,
	mmDCORE0_EDMA0_QM_CP_FENCE2_RDATA_2,
	mmDCORE0_EDMA0_QM_CP_FENCE2_RDATA_3,
	mmDCORE0_EDMA0_QM_CP_FENCE2_RDATA_4,
	mmDCORE0_EDMA0_QM_CP_FENCE3_RDATA_0,
	mmDCORE0_EDMA0_QM_CP_FENCE3_RDATA_1,
	mmDCORE0_EDMA0_QM_CP_FENCE3_RDATA_2,
	mmDCORE0_EDMA0_QM_CP_FENCE3_RDATA_3,
	mmDCORE0_EDMA0_QM_CP_FENCE3_RDATA_4,
	mmDCORE0_EDMA0_QM_CP_FENCE0_CNT_0,
	mmDCORE0_EDMA0_QM_CP_FENCE0_CNT_1,
	mmDCORE0_EDMA0_QM_CP_FENCE0_CNT_2,
	mmDCORE0_EDMA0_QM_CP_FENCE0_CNT_3,
	mmDCORE0_EDMA0_QM_CP_FENCE0_CNT_4,
	mmDCORE0_EDMA0_QM_CP_FENCE1_CNT_0,
	mmDCORE0_EDMA0_QM_CP_FENCE1_CNT_1,
	mmDCORE0_EDMA0_QM_CP_FENCE1_CNT_2,
	mmDCORE0_EDMA0_QM_CP_FENCE1_CNT_3,
	mmDCORE0_EDMA0_QM_CP_FENCE1_CNT_4,
	mmDCORE0_EDMA0_QM_CP_FENCE2_CNT_0,
	mmDCORE0_EDMA0_QM_CP_FENCE2_CNT_1,
	mmDCORE0_EDMA0_QM_CP_FENCE2_CNT_2,
	mmDCORE0_EDMA0_QM_CP_FENCE2_CNT_3,
	mmDCORE0_EDMA0_QM_CP_FENCE2_CNT_4,
	mmDCORE0_EDMA0_QM_CP_FENCE3_CNT_0,
	mmDCORE0_EDMA0_QM_CP_FENCE3_CNT_1,
	mmDCORE0_EDMA0_QM_CP_FENCE3_CNT_2,
	mmDCORE0_EDMA0_QM_CP_FENCE3_CNT_3,
	mmDCORE0_EDMA0_QM_CP_FENCE3_CNT_4,
	mmDCORE0_EDMA0_QM_CQ_PTR_LO_0,
	mmDCORE0_EDMA0_QM_CQ_PTR_HI_0,
	mmDCORE0_EDMA0_QM_CQ_TSIZE_0,
	mmDCORE0_EDMA0_QM_CQ_CTL_0,
	mmDCORE0_EDMA0_QM_CQ_PTR_LO_1,
	mmDCORE0_EDMA0_QM_CQ_PTR_HI_1,
	mmDCORE0_EDMA0_QM_CQ_TSIZE_1,
	mmDCORE0_EDMA0_QM_CQ_CTL_1,
	mmDCORE0_EDMA0_QM_CQ_PTR_LO_2,
	mmDCORE0_EDMA0_QM_CQ_PTR_HI_2,
	mmDCORE0_EDMA0_QM_CQ_TSIZE_2,
	mmDCORE0_EDMA0_QM_CQ_CTL_2,
	mmDCORE0_EDMA0_QM_CQ_PTR_LO_3,
	mmDCORE0_EDMA0_QM_CQ_PTR_HI_3,
	mmDCORE0_EDMA0_QM_CQ_TSIZE_3,
	mmDCORE0_EDMA0_QM_CQ_CTL_3,
	mmDCORE0_EDMA0_QM_CQ_PTR_LO_4,
	mmDCORE0_EDMA0_QM_CQ_PTR_HI_4,
	mmDCORE0_EDMA0_QM_CQ_TSIZE_4,
	mmDCORE0_EDMA0_QM_CQ_CTL_4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR0_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR0_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR1_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR1_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR2_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR2_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR3_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR3_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR4_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR4_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR5_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR5_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR6_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR6_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR7_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR7_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR8_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR8_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR9_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR9_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR10_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR10_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR11_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR11_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR12_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR12_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR13_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR13_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR14_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR14_BASE + 4,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR15_BASE,
	mmDCORE0_EDMA0_QM_QMAN_WR64_BASE_ADDR15_BASE + 4,
	mmDCORE0_EDMA0_QM_ARC_CQ_PTR_LO,
	mmDCORE0_EDMA0_QM_ARC_CQ_PTR_LO_STS,
	mmDCORE0_EDMA0_QM_ARC_CQ_PTR_HI,
	mmDCORE0_EDMA0_QM_ARC_CQ_PTR_HI_STS,
	mmDCORE0_EDMA0_QM_ARB_CFG_0,
	mmDCORE0_EDMA0_QM_ARB_MST_QUIET_PER,
	mmDCORE0_EDMA0_QM_ARB_CHOICE_Q_PUSH,
	mmDCORE0_EDMA0_QM_ARB_WRR_WEIGHT_0,
	mmDCORE0_EDMA0_QM_ARB_WRR_WEIGHT_1,
	mmDCORE0_EDMA0_QM_ARB_WRR_WEIGHT_2,
	mmDCORE0_EDMA0_QM_ARB_WRR_WEIGHT_3,
	mmDCORE0_EDMA0_QM_ARB_BASE_LO,
	mmDCORE0_EDMA0_QM_ARB_BASE_HI,
	mmDCORE0_EDMA0_QM_ARB_MST_SLAVE_EN,
	mmDCORE0_EDMA0_QM_ARB_MST_SLAVE_EN_1,
	mmDCORE0_EDMA0_QM_ARB_MST_CRED_INC,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_0,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_1,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_2,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_3,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_4,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_5,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_6,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_7,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_8,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_9,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_10,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_11,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_12,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_13,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_14,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_15,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_16,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_17,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_18,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_19,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_20,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_21,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_22,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_23,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_24,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_25,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_26,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_27,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_28,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_29,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_30,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_31,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_32,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_33,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_34,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_35,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_36,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_37,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_38,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_39,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_40,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_41,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_42,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_43,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_44,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_45,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_46,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_47,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_48,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_49,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_50,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_51,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_52,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_53,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_54,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_55,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_56,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_57,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_58,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_59,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_60,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_61,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_62,
	mmDCORE0_EDMA0_QM_ARB_MST_CHOICE_PUSH_OFST_63,
	mmDCORE0_EDMA0_QM_ARB_SLV_ID,
	mmDCORE0_EDMA0_QM_ARB_SLV_MASTER_INC_CRED_OFST,
	mmDCORE0_EDMA0_QM_ARC_CQ_CFG0,
	mmDCORE0_EDMA0_QM_CQ_IFIFO_CI_0,
	mmDCORE0_EDMA0_QM_CQ_IFIFO_CI_1,
	mmDCORE0_EDMA0_QM_CQ_IFIFO_CI_2,
	mmDCORE0_EDMA0_QM_CQ_IFIFO_CI_3,
	mmDCORE0_EDMA0_QM_CQ_IFIFO_CI_4,
	mmDCORE0_EDMA0_QM_ARC_CQ_IFIFO_CI,
	mmDCORE0_EDMA0_QM_CQ_CTL_CI_0,
	mmDCORE0_EDMA0_QM_CQ_CTL_CI_1,
	mmDCORE0_EDMA0_QM_CQ_CTL_CI_2,
	mmDCORE0_EDMA0_QM_CQ_CTL_CI_3,
	mmDCORE0_EDMA0_QM_CQ_CTL_CI_4,
	mmDCORE0_EDMA0_QM_ARC_CQ_CTL_CI,
	mmDCORE0_EDMA0_QM_ARC_CQ_TSIZE,
	mmDCORE0_EDMA0_QM_ARC_CQ_CTL,
	mmDCORE0_EDMA0_QM_CP_SWITCH_WD_SET,
	mmDCORE0_EDMA0_QM_CP_EXT_SWITCH,
	mmDCORE0_EDMA0_QM_CP_PRED_0,
	mmDCORE0_EDMA0_QM_CP_PRED_1,
	mmDCORE0_EDMA0_QM_CP_PRED_2,
	mmDCORE0_EDMA0_QM_CP_PRED_3,
	mmDCORE0_EDMA0_QM_CP_PRED_4,
	mmDCORE0_EDMA0_QM_CP_PRED_UPEN_0,
	mmDCORE0_EDMA0_QM_CP_PRED_UPEN_1,
	mmDCORE0_EDMA0_QM_CP_PRED_UPEN_2,
	mmDCORE0_EDMA0_QM_CP_PRED_UPEN_3,
	mmDCORE0_EDMA0_QM_CP_PRED_UPEN_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_LO_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_LO_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_LO_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_LO_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_LO_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_HI_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_HI_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_HI_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_HI_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE0_ADDR_HI_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_LO_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_LO_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_LO_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_LO_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_LO_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_HI_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_HI_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_HI_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_HI_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE1_ADDR_HI_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_LO_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_LO_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_LO_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_LO_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_LO_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_HI_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_HI_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_HI_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_HI_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE2_ADDR_HI_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_LO_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_LO_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_LO_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_LO_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_LO_4,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_HI_0,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_HI_1,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_HI_2,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_HI_3,
	mmDCORE0_EDMA0_QM_CP_MSG_BASE3_ADDR_HI_4,
	mmDCORE0_EDMA0_QM_ARC_CQ_IFIFO_MSG_BASE_LO,
	mmDCORE0_EDMA0_QM_ARC_CQ_CTL_MSG_BASE_LO,
	mmDCORE0_EDMA0_QM_CQ_IFIFO_MSG_BASE_LO,
	mmDCORE0_EDMA0_QM_CQ_CTL_MSG_BASE_LO
};

static const u32 gaudi2_pb_dcr0_mme_sbte[] = {
	mmDCORE0_MME_SBTE0_BASE,
	mmDCORE0_MME_SBTE0_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_dcr0_mme_qm[] = {
	mmDCORE0_MME_QM_BASE,
};

static const u32 gaudi2_pb_dcr0_mme_eng[] = {
	mmDCORE0_MME_ACC_BASE,
	mmDCORE0_MME_CTRL_HI_BASE,
	mmDCORE0_MME_CTRL_LO_BASE,
	mmDCORE0_MME_CTRL_MSTR_IF_RR_SHRD_HBW_BASE,
	mmDCORE0_MME_WB0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmDCORE0_MME_WB1_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_dcr0_mme_arc[] = {
	mmDCORE0_MME_QM_ARC_AUX_BASE,
	mmDCORE0_MME_QM_ARC_DUP_ENG_BASE,
};

static const struct range gaudi2_pb_dcr0_mme_arc_unsecured_regs[] = {
	{mmDCORE0_MME_QM_ARC_AUX_RUN_HALT_REQ, mmDCORE0_MME_QM_ARC_AUX_RUN_HALT_ACK},
	{mmDCORE0_MME_QM_ARC_AUX_CLUSTER_NUM, mmDCORE0_MME_QM_ARC_AUX_WAKE_UP_EVENT},
	{mmDCORE0_MME_QM_ARC_AUX_ARC_RST_REQ, mmDCORE0_MME_QM_ARC_AUX_CID_OFFSET_7},
	{mmDCORE0_MME_QM_ARC_AUX_SCRATCHPAD_0, mmDCORE0_MME_QM_ARC_AUX_INFLIGHT_LBU_RD_CNT},
	{mmDCORE0_MME_QM_ARC_AUX_CBU_EARLY_BRESP_EN, mmDCORE0_MME_QM_ARC_AUX_CBU_EARLY_BRESP_EN},
	{mmDCORE0_MME_QM_ARC_AUX_LBU_EARLY_BRESP_EN, mmDCORE0_MME_QM_ARC_AUX_LBU_EARLY_BRESP_EN},
	{mmDCORE0_MME_QM_ARC_AUX_DCCM_QUEUE_BASE_ADDR_0,
		mmDCORE0_MME_QM_ARC_AUX_DCCM_QUEUE_ALERT_MSG},
	{mmDCORE0_MME_QM_ARC_AUX_DCCM_Q_PUSH_FIFO_CNT,
		mmDCORE0_MME_QM_ARC_AUX_QMAN_ARC_CQ_SHADOW_CI},
	{mmDCORE0_MME_QM_ARC_AUX_ARC_AXI_ORDERING_WR_IF_CNT,
		mmDCORE0_MME_QM_ARC_AUX_MME_ARC_UPPER_DCCM_EN},
	{mmDCORE0_MME_QM_ARC_DUP_ENG_DUP_TPC_ENG_ADDR_0,
		mmDCORE0_MME_QM_ARC_DUP_ENG_ARC_CID_OFFSET_63},
	{mmDCORE0_MME_QM_ARC_DUP_ENG_AXUSER_HB_STRONG_ORDER,
		mmDCORE0_MME_QM_ARC_DUP_ENG_AXUSER_LB_OVRD},
};

static const u32 gaudi2_pb_dcr0_mme_qm_unsecured_regs[] = {
	mmDCORE0_MME_QM_CQ_CFG0_0,
	mmDCORE0_MME_QM_CQ_CFG0_1,
	mmDCORE0_MME_QM_CQ_CFG0_2,
	mmDCORE0_MME_QM_CQ_CFG0_3,
	mmDCORE0_MME_QM_CQ_CFG0_4,
	mmDCORE0_MME_QM_CP_FENCE0_RDATA_0,
	mmDCORE0_MME_QM_CP_FENCE0_RDATA_1,
	mmDCORE0_MME_QM_CP_FENCE0_RDATA_2,
	mmDCORE0_MME_QM_CP_FENCE0_RDATA_3,
	mmDCORE0_MME_QM_CP_FENCE0_RDATA_4,
	mmDCORE0_MME_QM_CP_FENCE1_RDATA_0,
	mmDCORE0_MME_QM_CP_FENCE1_RDATA_1,
	mmDCORE0_MME_QM_CP_FENCE1_RDATA_2,
	mmDCORE0_MME_QM_CP_FENCE1_RDATA_3,
	mmDCORE0_MME_QM_CP_FENCE1_RDATA_4,
	mmDCORE0_MME_QM_CP_FENCE2_RDATA_0,
	mmDCORE0_MME_QM_CP_FENCE2_RDATA_1,
	mmDCORE0_MME_QM_CP_FENCE2_RDATA_2,
	mmDCORE0_MME_QM_CP_FENCE2_RDATA_3,
	mmDCORE0_MME_QM_CP_FENCE2_RDATA_4,
	mmDCORE0_MME_QM_CP_FENCE3_RDATA_0,
	mmDCORE0_MME_QM_CP_FENCE3_RDATA_1,
	mmDCORE0_MME_QM_CP_FENCE3_RDATA_2,
	mmDCORE0_MME_QM_CP_FENCE3_RDATA_3,
	mmDCORE0_MME_QM_CP_FENCE3_RDATA_4,
	mmDCORE0_MME_QM_CP_FENCE0_CNT_0,
	mmDCORE0_MME_QM_CP_FENCE0_CNT_1,
	mmDCORE0_MME_QM_CP_FENCE0_CNT_2,
	mmDCORE0_MME_QM_CP_FENCE0_CNT_3,
	mmDCORE0_MME_QM_CP_FENCE0_CNT_4,
	mmDCORE0_MME_QM_CP_FENCE1_CNT_0,
	mmDCORE0_MME_QM_CP_FENCE1_CNT_1,
	mmDCORE0_MME_QM_CP_FENCE1_CNT_2,
	mmDCORE0_MME_QM_CP_FENCE1_CNT_3,
	mmDCORE0_MME_QM_CP_FENCE1_CNT_4,
	mmDCORE0_MME_QM_CP_FENCE2_CNT_0,
	mmDCORE0_MME_QM_CP_FENCE2_CNT_1,
	mmDCORE0_MME_QM_CP_FENCE2_CNT_2,
	mmDCORE0_MME_QM_CP_FENCE2_CNT_3,
	mmDCORE0_MME_QM_CP_FENCE2_CNT_4,
	mmDCORE0_MME_QM_CP_FENCE3_CNT_0,
	mmDCORE0_MME_QM_CP_FENCE3_CNT_1,
	mmDCORE0_MME_QM_CP_FENCE3_CNT_2,
	mmDCORE0_MME_QM_CP_FENCE3_CNT_3,
	mmDCORE0_MME_QM_CP_FENCE3_CNT_4,
	mmDCORE0_MME_QM_CQ_PTR_LO_0,
	mmDCORE0_MME_QM_CQ_PTR_HI_0,
	mmDCORE0_MME_QM_CQ_TSIZE_0,
	mmDCORE0_MME_QM_CQ_CTL_0,
	mmDCORE0_MME_QM_CQ_PTR_LO_1,
	mmDCORE0_MME_QM_CQ_PTR_HI_1,
	mmDCORE0_MME_QM_CQ_TSIZE_1,
	mmDCORE0_MME_QM_CQ_CTL_1,
	mmDCORE0_MME_QM_CQ_PTR_LO_2,
	mmDCORE0_MME_QM_CQ_PTR_HI_2,
	mmDCORE0_MME_QM_CQ_TSIZE_2,
	mmDCORE0_MME_QM_CQ_CTL_2,
	mmDCORE0_MME_QM_CQ_PTR_LO_3,
	mmDCORE0_MME_QM_CQ_PTR_HI_3,
	mmDCORE0_MME_QM_CQ_TSIZE_3,
	mmDCORE0_MME_QM_CQ_CTL_3,
	mmDCORE0_MME_QM_CQ_PTR_LO_4,
	mmDCORE0_MME_QM_CQ_PTR_HI_4,
	mmDCORE0_MME_QM_CQ_TSIZE_4,
	mmDCORE0_MME_QM_CQ_CTL_4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR0_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR0_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR1_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR1_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR2_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR2_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR3_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR3_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR4_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR4_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR5_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR5_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR6_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR6_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR7_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR7_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR8_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR8_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR9_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR9_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR10_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR10_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR11_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR11_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR12_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR12_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR13_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR13_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR14_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR14_BASE + 4,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR15_BASE,
	mmDCORE0_MME_QM_QMAN_WR64_BASE_ADDR15_BASE + 4,
	mmDCORE0_MME_QM_ARC_CQ_PTR_LO,
	mmDCORE0_MME_QM_ARC_CQ_PTR_LO_STS,
	mmDCORE0_MME_QM_ARC_CQ_PTR_HI,
	mmDCORE0_MME_QM_ARC_CQ_PTR_HI_STS,
	mmDCORE0_MME_QM_ARB_CFG_0,
	mmDCORE0_MME_QM_ARB_MST_QUIET_PER,
	mmDCORE0_MME_QM_ARB_CHOICE_Q_PUSH,
	mmDCORE0_MME_QM_ARB_WRR_WEIGHT_0,
	mmDCORE0_MME_QM_ARB_WRR_WEIGHT_1,
	mmDCORE0_MME_QM_ARB_WRR_WEIGHT_2,
	mmDCORE0_MME_QM_ARB_WRR_WEIGHT_3,
	mmDCORE0_MME_QM_ARB_BASE_LO,
	mmDCORE0_MME_QM_ARB_BASE_HI,
	mmDCORE0_MME_QM_ARB_MST_SLAVE_EN,
	mmDCORE0_MME_QM_ARB_MST_SLAVE_EN_1,
	mmDCORE0_MME_QM_ARB_MST_CRED_INC,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_0,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_1,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_2,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_3,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_4,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_5,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_6,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_7,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_8,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_9,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_10,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_11,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_12,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_13,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_14,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_15,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_16,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_17,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_18,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_19,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_20,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_21,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_22,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_23,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_24,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_25,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_26,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_27,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_28,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_29,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_30,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_31,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_32,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_33,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_34,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_35,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_36,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_37,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_38,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_39,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_40,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_41,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_42,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_43,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_44,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_45,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_46,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_47,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_48,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_49,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_50,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_51,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_52,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_53,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_54,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_55,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_56,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_57,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_58,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_59,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_60,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_61,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_62,
	mmDCORE0_MME_QM_ARB_MST_CHOICE_PUSH_OFST_63,
	mmDCORE0_MME_QM_ARB_SLV_ID,
	mmDCORE0_MME_QM_ARB_SLV_MASTER_INC_CRED_OFST,
	mmDCORE0_MME_QM_ARC_CQ_CFG0,
	mmDCORE0_MME_QM_CQ_IFIFO_CI_0,
	mmDCORE0_MME_QM_CQ_IFIFO_CI_1,
	mmDCORE0_MME_QM_CQ_IFIFO_CI_2,
	mmDCORE0_MME_QM_CQ_IFIFO_CI_3,
	mmDCORE0_MME_QM_CQ_IFIFO_CI_4,
	mmDCORE0_MME_QM_ARC_CQ_IFIFO_CI,
	mmDCORE0_MME_QM_CQ_CTL_CI_0,
	mmDCORE0_MME_QM_CQ_CTL_CI_1,
	mmDCORE0_MME_QM_CQ_CTL_CI_2,
	mmDCORE0_MME_QM_CQ_CTL_CI_3,
	mmDCORE0_MME_QM_CQ_CTL_CI_4,
	mmDCORE0_MME_QM_ARC_CQ_CTL_CI,
	mmDCORE0_MME_QM_ARC_CQ_TSIZE,
	mmDCORE0_MME_QM_ARC_CQ_CTL,
	mmDCORE0_MME_QM_CP_SWITCH_WD_SET,
	mmDCORE0_MME_QM_CP_EXT_SWITCH,
	mmDCORE0_MME_QM_CP_PRED_0,
	mmDCORE0_MME_QM_CP_PRED_1,
	mmDCORE0_MME_QM_CP_PRED_2,
	mmDCORE0_MME_QM_CP_PRED_3,
	mmDCORE0_MME_QM_CP_PRED_4,
	mmDCORE0_MME_QM_CP_PRED_UPEN_0,
	mmDCORE0_MME_QM_CP_PRED_UPEN_1,
	mmDCORE0_MME_QM_CP_PRED_UPEN_2,
	mmDCORE0_MME_QM_CP_PRED_UPEN_3,
	mmDCORE0_MME_QM_CP_PRED_UPEN_4,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_LO_0,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_LO_1,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_LO_2,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_LO_3,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_LO_4,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_HI_0,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_HI_1,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_HI_2,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_HI_3,
	mmDCORE0_MME_QM_CP_MSG_BASE0_ADDR_HI_4,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_LO_0,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_LO_1,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_LO_2,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_LO_3,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_LO_4,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_HI_0,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_HI_1,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_HI_2,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_HI_3,
	mmDCORE0_MME_QM_CP_MSG_BASE1_ADDR_HI_4,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_LO_0,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_LO_1,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_LO_2,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_LO_3,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_LO_4,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_HI_0,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_HI_1,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_HI_2,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_HI_3,
	mmDCORE0_MME_QM_CP_MSG_BASE2_ADDR_HI_4,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_LO_0,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_LO_1,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_LO_2,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_LO_3,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_LO_4,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_HI_0,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_HI_1,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_HI_2,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_HI_3,
	mmDCORE0_MME_QM_CP_MSG_BASE3_ADDR_HI_4,
	mmDCORE0_MME_QM_ARC_CQ_IFIFO_MSG_BASE_LO,
	mmDCORE0_MME_QM_ARC_CQ_CTL_MSG_BASE_LO,
	mmDCORE0_MME_QM_CQ_IFIFO_MSG_BASE_LO,
	mmDCORE0_MME_QM_CQ_CTL_MSG_BASE_LO
};

static const u32 gaudi2_pb_dcr0_mme_eng_unsecured_regs[] = {
	mmDCORE0_MME_CTRL_LO_CMD,
	mmDCORE0_MME_CTRL_LO_AGU,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_BRAINS_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_BRAINS_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_HEADER_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_HEADER_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_EUS_MASTER,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_EUS_SLAVE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_CONV_KERNEL_SIZE_MINUS_1,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_CONV_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_CONV_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_OUTER_LOOP,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_NUM_ITERATIONS_MINUS_1,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SB_REPEAT,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_FP8_BIAS,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_RATE_LIMITER,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_USER_DATA,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_PERF_EVT_IN,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_PERF_EVT_OUT,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_PCU,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SLAVE_SYNC_OBJ0_ADDR,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SLAVE_SYNC_OBJ1_ADDR,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_POWER_LOOP,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE0_MASTER,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE1_MASTER,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE2_MASTER,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE3_MASTER,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE0_SLAVE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE1_SLAVE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE2_SLAVE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_SPARE3_SLAVE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_WKL_ID,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_VALID_ELEMENTS_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_VALID_ELEMENTS_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_VALID_ELEMENTS_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_VALID_ELEMENTS_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_VALID_ELEMENTS_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_LOOP_STRIDE_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_LOOP_STRIDE_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_LOOP_STRIDE_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_LOOP_STRIDE_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_LOOP_STRIDE_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_ROI_SIZE_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_ROI_SIZE_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_ROI_SIZE_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_ROI_SIZE_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_SPATIAL_STRIDES_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_SPATIAL_STRIDES_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_SPATIAL_STRIDES_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_SPATIAL_STRIDES_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_START_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_START_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_START_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_START_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_COUT1_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_COUT1_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_COUT0_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_COUT0_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_A_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_A_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_B_LOW,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_B_HIGH,
	mmDCORE0_MME_CTRL_LO_ARCH_STATUS,
	mmDCORE0_MME_CTRL_LO_ARCH_SYNC_OBJ_DW0,
	mmDCORE0_MME_CTRL_LO_ARCH_SYNC_OBJ_ADDR0,
	mmDCORE0_MME_CTRL_LO_ARCH_SYNC_OBJ_VAL0,
	mmDCORE0_MME_CTRL_LO_ARCH_SYNC_OBJ_ADDR1,
	mmDCORE0_MME_CTRL_LO_ARCH_SYNC_OBJ_VAL1,
	mmDCORE0_MME_CTRL_LO_ARCH_A_SS,
	mmDCORE0_MME_CTRL_LO_ARCH_B_SS,
	mmDCORE0_MME_CTRL_LO_ARCH_COUT_SS,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_MASTER_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_MASTER_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_MASTER_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_MASTER_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_MASTER_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_VALID_ELEMENTS_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_VALID_ELEMENTS_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_VALID_ELEMENTS_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_VALID_ELEMENTS_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_VALID_ELEMENTS_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_LOOP_STRIDE_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_LOOP_STRIDE_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_LOOP_STRIDE_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_LOOP_STRIDE_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_LOOP_STRIDE_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_ROI_SIZE_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_ROI_SIZE_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_ROI_SIZE_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_ROI_SIZE_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_SPATIAL_STRIDES_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_SPATIAL_STRIDES_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_SPATIAL_STRIDES_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_SPATIAL_STRIDES_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_START_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_START_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_START_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_START_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_BASE_ADDR_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_START_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_A_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_COUT_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN1_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN2_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN3_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_MASTER_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT1_SLAVE_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_NON_TENSOR_END_BASE,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_COUT0_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN4_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_VALID_ELEMENTS_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_VALID_ELEMENTS_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_VALID_ELEMENTS_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_VALID_ELEMENTS_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_VALID_ELEMENTS_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_LOOP_STRIDE_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_LOOP_STRIDE_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_LOOP_STRIDE_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_LOOP_STRIDE_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_LOOP_STRIDE_4,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_ROI_SIZE_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_ROI_SIZE_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_ROI_SIZE_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_ROI_SIZE_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_SPATIAL_STRIDES_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_SPATIAL_STRIDES_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_SPATIAL_STRIDES_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_SPATIAL_STRIDES_3,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_START_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_START_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_START_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_TENSOR_B_START_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_SLAVE_ROI_BASE_OFFSET_0,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_SLAVE_ROI_BASE_OFFSET_1,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_SLAVE_ROI_BASE_OFFSET_2,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_SLAVE_ROI_BASE_OFFSET_3,
	mmDCORE0_MME_CTRL_LO_ARCH_AGU_IN0_SLAVE_ROI_BASE_OFFSET_4,
	mmDCORE0_MME_ACC_AP_LFSR_POLY,
	mmDCORE0_MME_ACC_AP_LFSR_SEED_WDATA,
	mmDCORE0_MME_ACC_AP_LFSR_SEED_SEL,
	mmDCORE0_MME_ACC_AP_LFSR_SEED_RDATA,
	mmDCORE0_MME_ACC_AP_LFSR_CLOSE_CGATE_DLY,
	mmDCORE0_MME_ACC_WBC_SRC_BP,
};

static const u32 gaudi2_pb_dcr0_tpc0[] = {
	mmDCORE0_TPC0_QM_BASE,
	mmDCORE0_TPC0_CFG_BASE,
	mmDCORE0_TPC0_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_dcr0_tpc0_arc[] = {
	mmDCORE0_TPC0_QM_ARC_AUX_BASE,
};

static const struct range gaudi2_pb_dcr0_tpc0_arc_unsecured_regs[] = {
	{mmDCORE0_TPC0_QM_ARC_AUX_RUN_HALT_REQ, mmDCORE0_TPC0_QM_ARC_AUX_RUN_HALT_ACK},
	{mmDCORE0_TPC0_QM_ARC_AUX_CLUSTER_NUM, mmDCORE0_TPC0_QM_ARC_AUX_WAKE_UP_EVENT},
	{mmDCORE0_TPC0_QM_ARC_AUX_ARC_RST_REQ, mmDCORE0_TPC0_QM_ARC_AUX_CID_OFFSET_7},
	{mmDCORE0_TPC0_QM_ARC_AUX_SCRATCHPAD_0, mmDCORE0_TPC0_QM_ARC_AUX_INFLIGHT_LBU_RD_CNT},
	{mmDCORE0_TPC0_QM_ARC_AUX_CBU_EARLY_BRESP_EN, mmDCORE0_TPC0_QM_ARC_AUX_CBU_EARLY_BRESP_EN},
	{mmDCORE0_TPC0_QM_ARC_AUX_LBU_EARLY_BRESP_EN, mmDCORE0_TPC0_QM_ARC_AUX_LBU_EARLY_BRESP_EN},
	{mmDCORE0_TPC0_QM_ARC_AUX_DCCM_QUEUE_BASE_ADDR_0,
		mmDCORE0_TPC0_QM_ARC_AUX_DCCM_QUEUE_ALERT_MSG},
	{mmDCORE0_TPC0_QM_ARC_AUX_DCCM_Q_PUSH_FIFO_CNT,
		mmDCORE0_TPC0_QM_ARC_AUX_QMAN_ARC_CQ_SHADOW_CI},
	{mmDCORE0_TPC0_QM_ARC_AUX_ARC_AXI_ORDERING_WR_IF_CNT,
		mmDCORE0_TPC0_QM_ARC_AUX_MME_ARC_UPPER_DCCM_EN},
};

static const u32 gaudi2_pb_dcr0_tpc0_unsecured_regs[] = {
	mmDCORE0_TPC0_QM_CQ_CFG0_0,
	mmDCORE0_TPC0_QM_CQ_CFG0_1,
	mmDCORE0_TPC0_QM_CQ_CFG0_2,
	mmDCORE0_TPC0_QM_CQ_CFG0_3,
	mmDCORE0_TPC0_QM_CQ_CFG0_4,
	mmDCORE0_TPC0_QM_CP_FENCE0_RDATA_0,
	mmDCORE0_TPC0_QM_CP_FENCE0_RDATA_1,
	mmDCORE0_TPC0_QM_CP_FENCE0_RDATA_2,
	mmDCORE0_TPC0_QM_CP_FENCE0_RDATA_3,
	mmDCORE0_TPC0_QM_CP_FENCE0_RDATA_4,
	mmDCORE0_TPC0_QM_CP_FENCE1_RDATA_0,
	mmDCORE0_TPC0_QM_CP_FENCE1_RDATA_1,
	mmDCORE0_TPC0_QM_CP_FENCE1_RDATA_2,
	mmDCORE0_TPC0_QM_CP_FENCE1_RDATA_3,
	mmDCORE0_TPC0_QM_CP_FENCE1_RDATA_4,
	mmDCORE0_TPC0_QM_CP_FENCE2_RDATA_0,
	mmDCORE0_TPC0_QM_CP_FENCE2_RDATA_1,
	mmDCORE0_TPC0_QM_CP_FENCE2_RDATA_2,
	mmDCORE0_TPC0_QM_CP_FENCE2_RDATA_3,
	mmDCORE0_TPC0_QM_CP_FENCE2_RDATA_4,
	mmDCORE0_TPC0_QM_CP_FENCE3_RDATA_0,
	mmDCORE0_TPC0_QM_CP_FENCE3_RDATA_1,
	mmDCORE0_TPC0_QM_CP_FENCE3_RDATA_2,
	mmDCORE0_TPC0_QM_CP_FENCE3_RDATA_3,
	mmDCORE0_TPC0_QM_CP_FENCE3_RDATA_4,
	mmDCORE0_TPC0_QM_CP_FENCE0_CNT_0,
	mmDCORE0_TPC0_QM_CP_FENCE0_CNT_1,
	mmDCORE0_TPC0_QM_CP_FENCE0_CNT_2,
	mmDCORE0_TPC0_QM_CP_FENCE0_CNT_3,
	mmDCORE0_TPC0_QM_CP_FENCE0_CNT_4,
	mmDCORE0_TPC0_QM_CP_FENCE1_CNT_0,
	mmDCORE0_TPC0_QM_CP_FENCE1_CNT_1,
	mmDCORE0_TPC0_QM_CP_FENCE1_CNT_2,
	mmDCORE0_TPC0_QM_CP_FENCE1_CNT_3,
	mmDCORE0_TPC0_QM_CP_FENCE1_CNT_4,
	mmDCORE0_TPC0_QM_CP_FENCE2_CNT_0,
	mmDCORE0_TPC0_QM_CP_FENCE2_CNT_1,
	mmDCORE0_TPC0_QM_CP_FENCE2_CNT_2,
	mmDCORE0_TPC0_QM_CP_FENCE2_CNT_3,
	mmDCORE0_TPC0_QM_CP_FENCE2_CNT_4,
	mmDCORE0_TPC0_QM_CP_FENCE3_CNT_0,
	mmDCORE0_TPC0_QM_CP_FENCE3_CNT_1,
	mmDCORE0_TPC0_QM_CP_FENCE3_CNT_2,
	mmDCORE0_TPC0_QM_CP_FENCE3_CNT_3,
	mmDCORE0_TPC0_QM_CP_FENCE3_CNT_4,
	mmDCORE0_TPC0_QM_CQ_PTR_LO_0,
	mmDCORE0_TPC0_QM_CQ_PTR_HI_0,
	mmDCORE0_TPC0_QM_CQ_TSIZE_0,
	mmDCORE0_TPC0_QM_CQ_CTL_0,
	mmDCORE0_TPC0_QM_CQ_PTR_LO_1,
	mmDCORE0_TPC0_QM_CQ_PTR_HI_1,
	mmDCORE0_TPC0_QM_CQ_TSIZE_1,
	mmDCORE0_TPC0_QM_CQ_CTL_1,
	mmDCORE0_TPC0_QM_CQ_PTR_LO_2,
	mmDCORE0_TPC0_QM_CQ_PTR_HI_2,
	mmDCORE0_TPC0_QM_CQ_TSIZE_2,
	mmDCORE0_TPC0_QM_CQ_CTL_2,
	mmDCORE0_TPC0_QM_CQ_PTR_LO_3,
	mmDCORE0_TPC0_QM_CQ_PTR_HI_3,
	mmDCORE0_TPC0_QM_CQ_TSIZE_3,
	mmDCORE0_TPC0_QM_CQ_CTL_3,
	mmDCORE0_TPC0_QM_CQ_PTR_LO_4,
	mmDCORE0_TPC0_QM_CQ_PTR_HI_4,
	mmDCORE0_TPC0_QM_CQ_TSIZE_4,
	mmDCORE0_TPC0_QM_CQ_CTL_4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR0_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR0_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR1_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR1_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR2_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR2_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR3_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR3_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR4_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR4_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR5_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR5_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR6_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR6_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR7_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR7_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR8_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR8_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR9_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR9_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR10_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR10_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR11_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR11_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR12_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR12_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR13_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR13_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR14_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR14_BASE + 4,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR15_BASE,
	mmDCORE0_TPC0_QM_QMAN_WR64_BASE_ADDR15_BASE + 4,
	mmDCORE0_TPC0_QM_ARC_CQ_PTR_LO,
	mmDCORE0_TPC0_QM_ARC_CQ_PTR_LO_STS,
	mmDCORE0_TPC0_QM_ARC_CQ_PTR_HI,
	mmDCORE0_TPC0_QM_ARC_CQ_PTR_HI_STS,
	mmDCORE0_TPC0_QM_ARB_CFG_0,
	mmDCORE0_TPC0_QM_ARB_MST_QUIET_PER,
	mmDCORE0_TPC0_QM_ARB_CHOICE_Q_PUSH,
	mmDCORE0_TPC0_QM_ARB_WRR_WEIGHT_0,
	mmDCORE0_TPC0_QM_ARB_WRR_WEIGHT_1,
	mmDCORE0_TPC0_QM_ARB_WRR_WEIGHT_2,
	mmDCORE0_TPC0_QM_ARB_WRR_WEIGHT_3,
	mmDCORE0_TPC0_QM_ARB_BASE_LO,
	mmDCORE0_TPC0_QM_ARB_BASE_HI,
	mmDCORE0_TPC0_QM_ARB_MST_SLAVE_EN,
	mmDCORE0_TPC0_QM_ARB_MST_SLAVE_EN_1,
	mmDCORE0_TPC0_QM_ARB_MST_CRED_INC,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_0,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_1,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_2,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_3,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_4,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_5,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_6,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_7,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_8,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_9,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_10,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_11,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_12,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_13,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_14,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_15,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_16,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_17,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_18,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_19,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_20,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_21,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_22,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_23,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_24,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_25,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_26,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_27,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_28,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_29,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_30,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_31,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_32,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_33,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_34,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_35,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_36,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_37,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_38,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_39,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_40,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_41,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_42,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_43,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_44,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_45,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_46,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_47,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_48,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_49,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_50,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_51,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_52,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_53,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_54,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_55,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_56,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_57,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_58,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_59,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_60,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_61,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_62,
	mmDCORE0_TPC0_QM_ARB_MST_CHOICE_PUSH_OFST_63,
	mmDCORE0_TPC0_QM_ARB_SLV_ID,
	mmDCORE0_TPC0_QM_ARB_SLV_MASTER_INC_CRED_OFST,
	mmDCORE0_TPC0_QM_ARC_CQ_CFG0,
	mmDCORE0_TPC0_QM_CQ_IFIFO_CI_0,
	mmDCORE0_TPC0_QM_CQ_IFIFO_CI_1,
	mmDCORE0_TPC0_QM_CQ_IFIFO_CI_2,
	mmDCORE0_TPC0_QM_CQ_IFIFO_CI_3,
	mmDCORE0_TPC0_QM_CQ_IFIFO_CI_4,
	mmDCORE0_TPC0_QM_ARC_CQ_IFIFO_CI,
	mmDCORE0_TPC0_QM_CQ_CTL_CI_0,
	mmDCORE0_TPC0_QM_CQ_CTL_CI_1,
	mmDCORE0_TPC0_QM_CQ_CTL_CI_2,
	mmDCORE0_TPC0_QM_CQ_CTL_CI_3,
	mmDCORE0_TPC0_QM_CQ_CTL_CI_4,
	mmDCORE0_TPC0_QM_ARC_CQ_CTL_CI,
	mmDCORE0_TPC0_QM_ARC_CQ_TSIZE,
	mmDCORE0_TPC0_QM_ARC_CQ_CTL,
	mmDCORE0_TPC0_QM_CP_SWITCH_WD_SET,
	mmDCORE0_TPC0_QM_CP_EXT_SWITCH,
	mmDCORE0_TPC0_QM_CP_PRED_0,
	mmDCORE0_TPC0_QM_CP_PRED_1,
	mmDCORE0_TPC0_QM_CP_PRED_2,
	mmDCORE0_TPC0_QM_CP_PRED_3,
	mmDCORE0_TPC0_QM_CP_PRED_4,
	mmDCORE0_TPC0_QM_CP_PRED_UPEN_0,
	mmDCORE0_TPC0_QM_CP_PRED_UPEN_1,
	mmDCORE0_TPC0_QM_CP_PRED_UPEN_2,
	mmDCORE0_TPC0_QM_CP_PRED_UPEN_3,
	mmDCORE0_TPC0_QM_CP_PRED_UPEN_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_LO_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_LO_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_LO_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_LO_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_LO_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_HI_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_HI_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_HI_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_HI_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE0_ADDR_HI_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_LO_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_LO_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_LO_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_LO_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_LO_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_HI_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_HI_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_HI_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_HI_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE1_ADDR_HI_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_LO_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_LO_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_LO_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_LO_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_LO_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_HI_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_HI_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_HI_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_HI_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE2_ADDR_HI_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_LO_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_LO_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_LO_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_LO_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_LO_4,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_HI_0,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_HI_1,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_HI_2,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_HI_3,
	mmDCORE0_TPC0_QM_CP_MSG_BASE3_ADDR_HI_4,
	mmDCORE0_TPC0_QM_ARC_CQ_IFIFO_MSG_BASE_LO,
	mmDCORE0_TPC0_QM_ARC_CQ_CTL_MSG_BASE_LO,
	mmDCORE0_TPC0_QM_CQ_IFIFO_MSG_BASE_LO,
	mmDCORE0_TPC0_QM_CQ_CTL_MSG_BASE_LO,
	mmDCORE0_TPC0_CFG_QM_SYNC_OBJECT_MESSAGE,
	mmDCORE0_TPC0_CFG_QM_SYNC_OBJECT_ADDR,
	mmDCORE0_TPC0_CFG_QM_KERNEL_BASE_ADDRESS_LOW,
	mmDCORE0_TPC0_CFG_QM_KERNEL_BASE_ADDRESS_HIGH,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_DIM_0,
	mmDCORE0_TPC0_CFG_QM_TID_SIZE_DIM_0,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_DIM_1,
	mmDCORE0_TPC0_CFG_QM_TID_SIZE_DIM_1,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_DIM_2,
	mmDCORE0_TPC0_CFG_QM_TID_SIZE_DIM_2,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_DIM_3,
	mmDCORE0_TPC0_CFG_QM_TID_SIZE_DIM_3,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_DIM_4,
	mmDCORE0_TPC0_CFG_QM_TID_SIZE_DIM_4,
	mmDCORE0_TPC0_CFG_QM_KERNEL_CONFIG,
	mmDCORE0_TPC0_CFG_QM_KERNEL_ID,
	mmDCORE0_TPC0_CFG_QM_POWER_LOOP,
	mmDCORE0_TPC0_CFG_TSB_CFG_MTRR_2_0,
	mmDCORE0_TPC0_CFG_TSB_CFG_MTRR_2_1,
	mmDCORE0_TPC0_CFG_TSB_CFG_MTRR_2_2,
	mmDCORE0_TPC0_CFG_TSB_CFG_MTRR_2_3,
	mmDCORE0_TPC0_CFG_LUT_FUNC32_BASE2_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC32_BASE2_ADDR_HI,
	mmDCORE0_TPC0_CFG_LUT_FUNC64_BASE2_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC64_BASE2_ADDR_HI,
	mmDCORE0_TPC0_CFG_LUT_FUNC128_BASE2_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC128_BASE2_ADDR_HI,
	mmDCORE0_TPC0_CFG_LUT_FUNC256_BASE2_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC256_BASE2_ADDR_HI,
	mmDCORE0_TPC0_CFG_FP8_143_BIAS,
	mmDCORE0_TPC0_CFG_ROUND_CSR,
	mmDCORE0_TPC0_CFG_CONV_ROUND_CSR,
	mmDCORE0_TPC0_CFG_SEMAPHORE,
	mmDCORE0_TPC0_CFG_LFSR_POLYNOM,
	mmDCORE0_TPC0_CFG_STATUS,
	mmDCORE0_TPC0_CFG_TPC_CMD,
	mmDCORE0_TPC0_CFG_TPC_EXECUTE,
	mmDCORE0_TPC0_CFG_TPC_DCACHE_L0CD,
	mmDCORE0_TPC0_CFG_ICACHE_BASE_ADDERESS_LOW,
	mmDCORE0_TPC0_CFG_ICACHE_BASE_ADDERESS_HIGH,
	mmDCORE0_TPC0_CFG_RD_RATE_LIMIT,
	mmDCORE0_TPC0_CFG_WR_RATE_LIMIT,
	mmDCORE0_TPC0_CFG_LUT_FUNC32_BASE_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC32_BASE_ADDR_HI,
	mmDCORE0_TPC0_CFG_LUT_FUNC64_BASE_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC64_BASE_ADDR_HI,
	mmDCORE0_TPC0_CFG_LUT_FUNC128_BASE_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC128_BASE_ADDR_HI,
	mmDCORE0_TPC0_CFG_LUT_FUNC256_BASE_ADDR_LO,
	mmDCORE0_TPC0_CFG_LUT_FUNC256_BASE_ADDR_HI,
	mmDCORE0_TPC0_CFG_KERNEL_KERNEL_CONFIG,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_0,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_1,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_2,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_3,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_4,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_5,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_6,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_7,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_8,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_9,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_10,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_11,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_12,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_13,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_14,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_15,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_16,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_17,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_18,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_19,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_20,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_21,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_22,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_23,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_24,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_25,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_26,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_27,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_28,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_29,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_30,
	mmDCORE0_TPC0_CFG_KERNEL_SRF_31,
	mmDCORE0_TPC0_CFG_TPC_SB_L0CD,
	mmDCORE0_TPC0_CFG_TPC_COUNT,
	mmDCORE0_TPC0_CFG_TPC_ID,
	mmDCORE0_TPC0_CFG_QM_KERNEL_ID_INC,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_SIZE_HIGH_DIM_0,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_SIZE_HIGH_DIM_1,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_SIZE_HIGH_DIM_2,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_SIZE_HIGH_DIM_3,
	mmDCORE0_TPC0_CFG_QM_TID_BASE_SIZE_HIGH_DIM_4,
	mmDCORE0_TPC0_CFG_SPECIAL_GLBL_SPARE_0,
	mmDCORE0_TPC0_CFG_SPECIAL_GLBL_SPARE_1,
	mmDCORE0_TPC0_CFG_SPECIAL_GLBL_SPARE_2,
	mmDCORE0_TPC0_CFG_SPECIAL_GLBL_SPARE_3
};

static const u32 gaudi2_pb_dcr0_tpc0_ktensor_unsecured_regs[] = {
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_BASE_ADDR_LOW,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_BASE_ADDR_HIGH,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_PADDING_VALUE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_TENSOR_CONFIG,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_0_SIZE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_0_STRIDE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_1_SIZE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_1_STRIDE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_2_SIZE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_2_STRIDE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_3_SIZE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_3_STRIDE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_4_SIZE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_4_STRIDE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_PREF_STRIDE,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_0_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_1_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_2_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_3_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_DIM_4_SIZE_STRIDE_HIGH,
};

static const u32 gaudi2_pb_dcr0_tpc0_qtensor_unsecured_regs[] = {
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_BASE_ADDR_LOW,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_BASE_ADDR_HIGH,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_PADDING_VALUE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_TENSOR_CONFIG,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_0_SIZE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_0_STRIDE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_1_SIZE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_1_STRIDE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_2_SIZE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_2_STRIDE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_3_SIZE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_3_STRIDE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_4_SIZE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_4_STRIDE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_PREF_STRIDE,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_0_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_1_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_2_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_3_SIZE_STRIDE_HIGH,
	mmDCORE0_TPC0_CFG_QM_TENSOR_0_DIM_4_SIZE_STRIDE_HIGH,
};

static const u32 gaudi2_pb_dcr0_sram0[] = {
	mmDCORE0_SRAM0_BANK_BASE,
	mmDCORE0_SRAM0_DBG_CNT_N_HBW_DBG_CNT_BASE,
	mmDCORE0_SRAM0_RTR_BASE,
};

static const u32 gaudi2_pb_dcr0_sm_mstr_if[] = {
	mmDCORE0_SYNC_MNGR_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_dcr0_sm_glbl[] = {
	mmDCORE0_SYNC_MNGR_GLBL_BASE,
};

static const u32 gaudi2_pb_dcr1_sm_glbl[] = {
	mmDCORE1_SYNC_MNGR_GLBL_BASE,
};

static const struct range gaudi2_pb_dcr0_sm_glbl_unsecured_regs[] = {
	{mmDCORE0_SYNC_MNGR_GLBL_CQ_BASE_ADDR_L_1, mmDCORE0_SYNC_MNGR_GLBL_CQ_BASE_ADDR_L_63},
	{mmDCORE0_SYNC_MNGR_GLBL_CQ_BASE_ADDR_H_1, mmDCORE0_SYNC_MNGR_GLBL_CQ_BASE_ADDR_H_63},
	{mmDCORE0_SYNC_MNGR_GLBL_CQ_SIZE_LOG2_1, mmDCORE0_SYNC_MNGR_GLBL_CQ_SIZE_LOG2_63},
	{mmDCORE0_SYNC_MNGR_GLBL_CQ_PI_1, mmDCORE0_SYNC_MNGR_GLBL_CQ_PI_63},
	{mmDCORE0_SYNC_MNGR_GLBL_LBW_ADDR_L_1, mmDCORE0_SYNC_MNGR_GLBL_LBW_ADDR_L_63},
	{mmDCORE0_SYNC_MNGR_GLBL_LBW_ADDR_H_1, mmDCORE0_SYNC_MNGR_GLBL_LBW_ADDR_H_63},
	{mmDCORE0_SYNC_MNGR_GLBL_LBW_DATA_1, mmDCORE0_SYNC_MNGR_GLBL_LBW_DATA_63},
	{mmDCORE0_SYNC_MNGR_GLBL_CQ_INC_MODE_1, mmDCORE0_SYNC_MNGR_GLBL_CQ_INC_MODE_63},
};

static const struct range gaudi2_pb_dcr_x_sm_glbl_unsecured_regs[] = {
	{mmDCORE1_SYNC_MNGR_GLBL_CQ_BASE_ADDR_L_0, mmDCORE1_SYNC_MNGR_GLBL_CQ_BASE_ADDR_L_63},
	{mmDCORE1_SYNC_MNGR_GLBL_CQ_BASE_ADDR_H_0, mmDCORE1_SYNC_MNGR_GLBL_CQ_BASE_ADDR_H_63},
	{mmDCORE1_SYNC_MNGR_GLBL_CQ_SIZE_LOG2_0, mmDCORE1_SYNC_MNGR_GLBL_CQ_SIZE_LOG2_63},
	{mmDCORE1_SYNC_MNGR_GLBL_CQ_PI_0, mmDCORE1_SYNC_MNGR_GLBL_CQ_PI_63},
	{mmDCORE1_SYNC_MNGR_GLBL_LBW_ADDR_L_0, mmDCORE1_SYNC_MNGR_GLBL_LBW_ADDR_L_63},
	{mmDCORE1_SYNC_MNGR_GLBL_LBW_ADDR_H_0, mmDCORE1_SYNC_MNGR_GLBL_LBW_ADDR_H_63},
	{mmDCORE1_SYNC_MNGR_GLBL_LBW_DATA_0, mmDCORE1_SYNC_MNGR_GLBL_LBW_DATA_63},
	{mmDCORE1_SYNC_MNGR_GLBL_CQ_INC_MODE_0, mmDCORE1_SYNC_MNGR_GLBL_CQ_INC_MODE_63},
};

static const u32 gaudi2_pb_arc_sched[] = {
	mmARC_FARM_ARC0_AUX_BASE,
	mmARC_FARM_ARC0_DUP_ENG_BASE,
	mmARC_FARM_ARC0_ACP_ENG_BASE,
};

static const struct range gaudi2_pb_arc_sched_unsecured_regs[] = {
	{mmARC_FARM_ARC0_AUX_RUN_HALT_REQ, mmARC_FARM_ARC0_AUX_RUN_HALT_ACK},
	{mmARC_FARM_ARC0_AUX_CLUSTER_NUM, mmARC_FARM_ARC0_AUX_WAKE_UP_EVENT},
	{mmARC_FARM_ARC0_AUX_ARC_RST_REQ, mmARC_FARM_ARC0_AUX_CID_OFFSET_7},
	{mmARC_FARM_ARC0_AUX_SCRATCHPAD_0, mmARC_FARM_ARC0_AUX_INFLIGHT_LBU_RD_CNT},
	{mmARC_FARM_ARC0_AUX_CBU_EARLY_BRESP_EN, mmARC_FARM_ARC0_AUX_CBU_EARLY_BRESP_EN},
	{mmARC_FARM_ARC0_AUX_LBU_EARLY_BRESP_EN, mmARC_FARM_ARC0_AUX_LBU_EARLY_BRESP_EN},
	{mmARC_FARM_ARC0_AUX_DCCM_QUEUE_BASE_ADDR_0, mmARC_FARM_ARC0_AUX_DCCM_QUEUE_ALERT_MSG},
	{mmARC_FARM_ARC0_AUX_DCCM_Q_PUSH_FIFO_CNT, mmARC_FARM_ARC0_AUX_QMAN_ARC_CQ_SHADOW_CI},
	{mmARC_FARM_ARC0_AUX_ARC_AXI_ORDERING_WR_IF_CNT, mmARC_FARM_ARC0_AUX_MME_ARC_UPPER_DCCM_EN},
	{mmARC_FARM_ARC0_DUP_ENG_DUP_TPC_ENG_ADDR_0, mmARC_FARM_ARC0_DUP_ENG_ARC_CID_OFFSET_63},
	{mmARC_FARM_ARC0_DUP_ENG_AXUSER_HB_STRONG_ORDER, mmARC_FARM_ARC0_DUP_ENG_AXUSER_LB_OVRD},
	{mmARC_FARM_ARC0_ACP_ENG_ACP_PI_REG_0, mmARC_FARM_ARC0_ACP_ENG_ACP_DBG_REG},
};

static const u32 gaudi2_pb_xbar_mid[] = {
	mmXBAR_MID_0_BASE,
};

static const u32 gaudi2_pb_xbar_mid_unsecured_regs[] = {
	mmXBAR_MID_0_UPSCALE,
	mmXBAR_MID_0_DOWN_CONV,
	mmXBAR_MID_0_DOWN_CONV_LFSR_EN,
	mmXBAR_MID_0_DOWN_CONV_LFSR_SET_VLD,
	mmXBAR_MID_0_DOWN_CONV_LFSR_SET_VALUE,
	mmXBAR_MID_0_DOWN_CONV_LFSR_CFG_POLY,
};

static const u32 gaudi2_pb_xbar_edge[] = {
	mmXBAR_EDGE_0_BASE,
};

static const u32 gaudi2_pb_xbar_edge_unsecured_regs[] = {
	mmXBAR_EDGE_0_UPSCALE,
	mmXBAR_EDGE_0_DOWN_CONV,
	mmXBAR_EDGE_0_DOWN_CONV_LFSR_EN,
	mmXBAR_EDGE_0_DOWN_CONV_LFSR_SET_VLD,
	mmXBAR_EDGE_0_DOWN_CONV_LFSR_SET_VALUE,
	mmXBAR_EDGE_0_DOWN_CONV_LFSR_CFG_POLY,
};

static const u32 gaudi2_pb_nic0[] = {
	mmNIC0_TMR_BASE,
	mmNIC0_RXB_CORE_BASE,
	mmNIC0_RXE0_BASE,
	mmNIC0_RXE1_BASE,
	mmNIC0_RXE0_AXUSER_AXUSER_CQ0_BASE,
	mmNIC0_RXE1_AXUSER_AXUSER_CQ0_BASE,
	mmNIC0_TXS0_BASE,
	mmNIC0_TXS1_BASE,
	mmNIC0_TXE0_BASE,
	mmNIC0_TXE1_BASE,
	mmNIC0_TXB_BASE,
	mmNIC0_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_nic0_qm_qpc[] = {
	mmNIC0_QM0_BASE,
	mmNIC0_QPC0_BASE,
};

static const u32 gaudi2_pb_nic0_qm_arc_aux0[] = {
	mmNIC0_QM_ARC_AUX0_BASE,
};

static const struct range gaudi2_pb_nic0_qm_arc_aux0_unsecured_regs[] = {
	{mmNIC0_QM_ARC_AUX0_RUN_HALT_REQ, mmNIC0_QM_ARC_AUX0_RUN_HALT_ACK},
	{mmNIC0_QM_ARC_AUX0_CLUSTER_NUM, mmNIC0_QM_ARC_AUX0_WAKE_UP_EVENT},
	{mmNIC0_QM_ARC_AUX0_ARC_RST_REQ, mmNIC0_QM_ARC_AUX0_CID_OFFSET_7},
	{mmNIC0_QM_ARC_AUX0_SCRATCHPAD_0, mmNIC0_QM_ARC_AUX0_INFLIGHT_LBU_RD_CNT},
	{mmNIC0_QM_ARC_AUX0_CBU_EARLY_BRESP_EN, mmNIC0_QM_ARC_AUX0_CBU_EARLY_BRESP_EN},
	{mmNIC0_QM_ARC_AUX0_LBU_EARLY_BRESP_EN, mmNIC0_QM_ARC_AUX0_LBU_EARLY_BRESP_EN},
	{mmNIC0_QM_ARC_AUX0_DCCM_QUEUE_BASE_ADDR_0, mmNIC0_QM_ARC_AUX0_DCCM_QUEUE_ALERT_MSG},
	{mmNIC0_QM_ARC_AUX0_DCCM_Q_PUSH_FIFO_CNT, mmNIC0_QM_ARC_AUX0_QMAN_ARC_CQ_SHADOW_CI},
	{mmNIC0_QM_ARC_AUX0_ARC_AXI_ORDERING_WR_IF_CNT, mmNIC0_QM_ARC_AUX0_MME_ARC_UPPER_DCCM_EN},
};

static const u32 gaudi2_pb_nic0_umr[] = {
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE,
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 1, /* UMR0_1 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 2, /* UMR0_2 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 3, /* UMR0_3 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 4, /* UMR0_4 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 5, /* UMR0_5 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 6, /* UMR0_6 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 7, /* UMR0_7 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 8, /* UMR0_8 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 9, /* UMR0_9 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 10, /* UMR0_10 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 11, /* UMR0_11 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 12, /* UMR0_12 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 13, /* UMR0_13 */
	mmNIC0_UMR0_0_UNSECURE_DOORBELL0_BASE + HL_BLOCK_SIZE * 14, /* UMR0_14 */
};

static const struct range gaudi2_pb_nic0_umr_unsecured_regs[] = {
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32,
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 1, /* UMR0_1 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 1},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 2, /* UMR0_2 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 2},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 3, /* UMR0_3 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 3},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 4, /* UMR0_4 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 4},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 5, /* UMR0_5 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 5},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 6, /* UMR0_6 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 6},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 7, /* UMR0_7 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 7},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 8, /* UMR0_8 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 8},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 9, /* UMR0_9 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 9},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 10, /* UMR0_10 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 10},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 11, /* UMR0_11 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 11},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 12, /* UMR0_12 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 12},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 13, /* UMR0_13 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 13},
	{mmNIC0_UMR0_0_UNSECURE_DOORBELL0_UNSECURE_DB_FIRST32 + HL_BLOCK_SIZE * 14, /* UMR0_14 */
		mmNIC0_UMR0_0_COMPLETION_QUEUE_CI_1_CQ_CONSUMER_INDEX + HL_BLOCK_SIZE * 14},
};

/*
 * mmNIC0_QPC0_LINEAR_WQE_QPN and mmNIC0_QPC0_MULTI_STRIDE_WQE_QPN are 32-bit
 * registers and since the user writes in bulks of 64 bits we need to un-secure
 * also the following 32 bits (that's why we added also the next 4 bytes to the
 * table). In the RTL, as part of ECO (2874), writing to the next 4 bytes
 * triggers a write to the SPECIAL_GLBL_SPARE register, hence it's must be
 * unsecured as well.
 */
#define mmNIC0_QPC0_LINEAR_WQE_RSV (mmNIC0_QPC0_LINEAR_WQE_QPN + 4)
#define mmNIC0_QPC0_MULTI_STRIDE_WQE_RSV (mmNIC0_QPC0_MULTI_STRIDE_WQE_QPN + 4)
#define mmNIC0_QPC0_SPECIAL_GLBL_SPARE 0x541FF60

static const u32 gaudi2_pb_nic0_qm_qpc_unsecured_regs[] = {
	mmNIC0_QPC0_LINEAR_WQE_STATIC_0,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_1,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_2,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_3,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_4,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_5,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_6,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_7,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_8,
	mmNIC0_QPC0_LINEAR_WQE_STATIC_9,
	mmNIC0_QPC0_LINEAR_WQE_DYNAMIC_0,
	mmNIC0_QPC0_LINEAR_WQE_DYNAMIC_1,
	mmNIC0_QPC0_LINEAR_WQE_DYNAMIC_2,
	mmNIC0_QPC0_LINEAR_WQE_DYNAMIC_3,
	mmNIC0_QPC0_LINEAR_WQE_DYNAMIC_4,
	mmNIC0_QPC0_LINEAR_WQE_DYNAMIC_5,
	mmNIC0_QPC0_LINEAR_WQE_QPN,
	mmNIC0_QPC0_LINEAR_WQE_RSV,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_0,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_1,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_2,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_3,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_4,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_5,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_6,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_7,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_8,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_9,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_10,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_11,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_12,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_13,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_14,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_15,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_16,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_STATIC_17,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_DYNAMIC_0,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_DYNAMIC_1,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_DYNAMIC_2,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_DYNAMIC_3,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_DYNAMIC_4,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_DYNAMIC_5,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_QPN,
	mmNIC0_QPC0_MULTI_STRIDE_WQE_RSV,
	mmNIC0_QPC0_QMAN_DOORBELL,
	mmNIC0_QPC0_QMAN_DOORBELL_QPN,
	mmNIC0_QPC0_SPECIAL_GLBL_SPARE,
	mmNIC0_QM0_CQ_CFG0_0,
	mmNIC0_QM0_CQ_CFG0_1,
	mmNIC0_QM0_CQ_CFG0_2,
	mmNIC0_QM0_CQ_CFG0_3,
	mmNIC0_QM0_CQ_CFG0_4,
	mmNIC0_QM0_CP_FENCE0_RDATA_0,
	mmNIC0_QM0_CP_FENCE0_RDATA_1,
	mmNIC0_QM0_CP_FENCE0_RDATA_2,
	mmNIC0_QM0_CP_FENCE0_RDATA_3,
	mmNIC0_QM0_CP_FENCE0_RDATA_4,
	mmNIC0_QM0_CP_FENCE1_RDATA_0,
	mmNIC0_QM0_CP_FENCE1_RDATA_1,
	mmNIC0_QM0_CP_FENCE1_RDATA_2,
	mmNIC0_QM0_CP_FENCE1_RDATA_3,
	mmNIC0_QM0_CP_FENCE1_RDATA_4,
	mmNIC0_QM0_CP_FENCE2_RDATA_0,
	mmNIC0_QM0_CP_FENCE2_RDATA_1,
	mmNIC0_QM0_CP_FENCE2_RDATA_2,
	mmNIC0_QM0_CP_FENCE2_RDATA_3,
	mmNIC0_QM0_CP_FENCE2_RDATA_4,
	mmNIC0_QM0_CP_FENCE3_RDATA_0,
	mmNIC0_QM0_CP_FENCE3_RDATA_1,
	mmNIC0_QM0_CP_FENCE3_RDATA_2,
	mmNIC0_QM0_CP_FENCE3_RDATA_3,
	mmNIC0_QM0_CP_FENCE3_RDATA_4,
	mmNIC0_QM0_CP_FENCE0_CNT_0,
	mmNIC0_QM0_CP_FENCE0_CNT_1,
	mmNIC0_QM0_CP_FENCE0_CNT_2,
	mmNIC0_QM0_CP_FENCE0_CNT_3,
	mmNIC0_QM0_CP_FENCE0_CNT_4,
	mmNIC0_QM0_CP_FENCE1_CNT_0,
	mmNIC0_QM0_CP_FENCE1_CNT_1,
	mmNIC0_QM0_CP_FENCE1_CNT_2,
	mmNIC0_QM0_CP_FENCE1_CNT_3,
	mmNIC0_QM0_CP_FENCE1_CNT_4,
	mmNIC0_QM0_CP_FENCE2_CNT_0,
	mmNIC0_QM0_CP_FENCE2_CNT_1,
	mmNIC0_QM0_CP_FENCE2_CNT_2,
	mmNIC0_QM0_CP_FENCE2_CNT_3,
	mmNIC0_QM0_CP_FENCE2_CNT_4,
	mmNIC0_QM0_CP_FENCE3_CNT_0,
	mmNIC0_QM0_CP_FENCE3_CNT_1,
	mmNIC0_QM0_CP_FENCE3_CNT_2,
	mmNIC0_QM0_CP_FENCE3_CNT_3,
	mmNIC0_QM0_CP_FENCE3_CNT_4,
	mmNIC0_QM0_CQ_PTR_LO_0,
	mmNIC0_QM0_CQ_PTR_HI_0,
	mmNIC0_QM0_CQ_TSIZE_0,
	mmNIC0_QM0_CQ_CTL_0,
	mmNIC0_QM0_CQ_PTR_LO_1,
	mmNIC0_QM0_CQ_PTR_HI_1,
	mmNIC0_QM0_CQ_TSIZE_1,
	mmNIC0_QM0_CQ_CTL_1,
	mmNIC0_QM0_CQ_PTR_LO_2,
	mmNIC0_QM0_CQ_PTR_HI_2,
	mmNIC0_QM0_CQ_TSIZE_2,
	mmNIC0_QM0_CQ_CTL_2,
	mmNIC0_QM0_CQ_PTR_LO_3,
	mmNIC0_QM0_CQ_PTR_HI_3,
	mmNIC0_QM0_CQ_TSIZE_3,
	mmNIC0_QM0_CQ_CTL_3,
	mmNIC0_QM0_CQ_PTR_LO_4,
	mmNIC0_QM0_CQ_PTR_HI_4,
	mmNIC0_QM0_CQ_TSIZE_4,
	mmNIC0_QM0_CQ_CTL_4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR0_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR0_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR1_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR1_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR2_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR2_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR3_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR3_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR4_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR4_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR5_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR5_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR6_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR6_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR7_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR7_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR8_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR8_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR9_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR9_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR10_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR10_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR11_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR11_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR12_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR12_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR13_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR13_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR14_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR14_BASE + 4,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR15_BASE,
	mmNIC0_QM0_QMAN_WR64_BASE_ADDR15_BASE + 4,
	mmNIC0_QM0_ARC_CQ_PTR_LO,
	mmNIC0_QM0_ARC_CQ_PTR_LO_STS,
	mmNIC0_QM0_ARC_CQ_PTR_HI,
	mmNIC0_QM0_ARC_CQ_PTR_HI_STS,
	mmNIC0_QM0_ARB_CFG_0,
	mmNIC0_QM0_ARB_MST_QUIET_PER,
	mmNIC0_QM0_ARB_CHOICE_Q_PUSH,
	mmNIC0_QM0_ARB_WRR_WEIGHT_0,
	mmNIC0_QM0_ARB_WRR_WEIGHT_1,
	mmNIC0_QM0_ARB_WRR_WEIGHT_2,
	mmNIC0_QM0_ARB_WRR_WEIGHT_3,
	mmNIC0_QM0_ARB_BASE_LO,
	mmNIC0_QM0_ARB_BASE_HI,
	mmNIC0_QM0_ARB_MST_SLAVE_EN,
	mmNIC0_QM0_ARB_MST_SLAVE_EN_1,
	mmNIC0_QM0_ARB_MST_CRED_INC,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_0,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_1,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_2,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_3,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_4,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_5,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_6,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_7,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_8,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_9,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_10,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_11,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_12,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_13,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_14,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_15,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_16,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_17,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_18,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_19,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_20,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_21,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_22,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_23,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_24,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_25,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_26,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_27,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_28,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_29,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_30,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_31,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_32,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_33,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_34,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_35,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_36,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_37,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_38,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_39,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_40,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_41,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_42,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_43,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_44,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_45,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_46,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_47,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_48,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_49,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_50,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_51,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_52,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_53,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_54,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_55,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_56,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_57,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_58,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_59,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_60,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_61,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_62,
	mmNIC0_QM0_ARB_MST_CHOICE_PUSH_OFST_63,
	mmNIC0_QM0_ARB_SLV_ID,
	mmNIC0_QM0_ARB_SLV_MASTER_INC_CRED_OFST,
	mmNIC0_QM0_ARC_CQ_CFG0,
	mmNIC0_QM0_CQ_IFIFO_CI_0,
	mmNIC0_QM0_CQ_IFIFO_CI_1,
	mmNIC0_QM0_CQ_IFIFO_CI_2,
	mmNIC0_QM0_CQ_IFIFO_CI_3,
	mmNIC0_QM0_CQ_IFIFO_CI_4,
	mmNIC0_QM0_ARC_CQ_IFIFO_CI,
	mmNIC0_QM0_CQ_CTL_CI_0,
	mmNIC0_QM0_CQ_CTL_CI_1,
	mmNIC0_QM0_CQ_CTL_CI_2,
	mmNIC0_QM0_CQ_CTL_CI_3,
	mmNIC0_QM0_CQ_CTL_CI_4,
	mmNIC0_QM0_ARC_CQ_CTL_CI,
	mmNIC0_QM0_ARC_CQ_TSIZE,
	mmNIC0_QM0_ARC_CQ_CTL,
	mmNIC0_QM0_CP_SWITCH_WD_SET,
	mmNIC0_QM0_CP_EXT_SWITCH,
	mmNIC0_QM0_CP_PRED_0,
	mmNIC0_QM0_CP_PRED_1,
	mmNIC0_QM0_CP_PRED_2,
	mmNIC0_QM0_CP_PRED_3,
	mmNIC0_QM0_CP_PRED_4,
	mmNIC0_QM0_CP_PRED_UPEN_0,
	mmNIC0_QM0_CP_PRED_UPEN_1,
	mmNIC0_QM0_CP_PRED_UPEN_2,
	mmNIC0_QM0_CP_PRED_UPEN_3,
	mmNIC0_QM0_CP_PRED_UPEN_4,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_LO_0,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_LO_1,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_LO_2,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_LO_3,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_LO_4,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_HI_0,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_HI_1,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_HI_2,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_HI_3,
	mmNIC0_QM0_CP_MSG_BASE0_ADDR_HI_4,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_LO_0,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_LO_1,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_LO_2,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_LO_3,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_LO_4,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_HI_0,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_HI_1,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_HI_2,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_HI_3,
	mmNIC0_QM0_CP_MSG_BASE1_ADDR_HI_4,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_LO_0,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_LO_1,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_LO_2,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_LO_3,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_LO_4,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_HI_0,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_HI_1,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_HI_2,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_HI_3,
	mmNIC0_QM0_CP_MSG_BASE2_ADDR_HI_4,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_LO_0,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_LO_1,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_LO_2,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_LO_3,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_LO_4,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_HI_0,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_HI_1,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_HI_2,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_HI_3,
	mmNIC0_QM0_CP_MSG_BASE3_ADDR_HI_4,
	mmNIC0_QM0_ARC_CQ_IFIFO_MSG_BASE_LO,
	mmNIC0_QM0_ARC_CQ_CTL_MSG_BASE_LO,
	mmNIC0_QM0_CQ_IFIFO_MSG_BASE_LO,
	mmNIC0_QM0_CQ_CTL_MSG_BASE_LO
};

static const u32 gaudi2_pb_rot0[] = {
	mmROT0_BASE,
	mmROT0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmROT0_QM_BASE,
};

static const u32 gaudi2_pb_rot0_arc[] = {
	mmROT0_QM_ARC_AUX_BASE
};

static const struct range gaudi2_pb_rot0_arc_unsecured_regs[] = {
	{mmROT0_QM_ARC_AUX_RUN_HALT_REQ, mmROT0_QM_ARC_AUX_RUN_HALT_ACK},
	{mmROT0_QM_ARC_AUX_CLUSTER_NUM, mmROT0_QM_ARC_AUX_WAKE_UP_EVENT},
	{mmROT0_QM_ARC_AUX_ARC_RST_REQ, mmROT0_QM_ARC_AUX_CID_OFFSET_7},
	{mmROT0_QM_ARC_AUX_SCRATCHPAD_0, mmROT0_QM_ARC_AUX_INFLIGHT_LBU_RD_CNT},
	{mmROT0_QM_ARC_AUX_CBU_EARLY_BRESP_EN, mmROT0_QM_ARC_AUX_CBU_EARLY_BRESP_EN},
	{mmROT0_QM_ARC_AUX_LBU_EARLY_BRESP_EN, mmROT0_QM_ARC_AUX_LBU_EARLY_BRESP_EN},
	{mmROT0_QM_ARC_AUX_DCCM_QUEUE_BASE_ADDR_0, mmROT0_QM_ARC_AUX_DCCM_QUEUE_ALERT_MSG},
	{mmROT0_QM_ARC_AUX_DCCM_Q_PUSH_FIFO_CNT, mmROT0_QM_ARC_AUX_QMAN_ARC_CQ_SHADOW_CI},
	{mmROT0_QM_ARC_AUX_ARC_AXI_ORDERING_WR_IF_CNT, mmROT0_QM_ARC_AUX_MME_ARC_UPPER_DCCM_EN},
};

static const u32 gaudi2_pb_rot0_unsecured_regs[] = {
	mmROT0_QM_CQ_CFG0_0,
	mmROT0_QM_CQ_CFG0_1,
	mmROT0_QM_CQ_CFG0_2,
	mmROT0_QM_CQ_CFG0_3,
	mmROT0_QM_CQ_CFG0_4,
	mmROT0_QM_CP_FENCE0_RDATA_0,
	mmROT0_QM_CP_FENCE0_RDATA_1,
	mmROT0_QM_CP_FENCE0_RDATA_2,
	mmROT0_QM_CP_FENCE0_RDATA_3,
	mmROT0_QM_CP_FENCE0_RDATA_4,
	mmROT0_QM_CP_FENCE1_RDATA_0,
	mmROT0_QM_CP_FENCE1_RDATA_1,
	mmROT0_QM_CP_FENCE1_RDATA_2,
	mmROT0_QM_CP_FENCE1_RDATA_3,
	mmROT0_QM_CP_FENCE1_RDATA_4,
	mmROT0_QM_CP_FENCE2_RDATA_0,
	mmROT0_QM_CP_FENCE2_RDATA_1,
	mmROT0_QM_CP_FENCE2_RDATA_2,
	mmROT0_QM_CP_FENCE2_RDATA_3,
	mmROT0_QM_CP_FENCE2_RDATA_4,
	mmROT0_QM_CP_FENCE3_RDATA_0,
	mmROT0_QM_CP_FENCE3_RDATA_1,
	mmROT0_QM_CP_FENCE3_RDATA_2,
	mmROT0_QM_CP_FENCE3_RDATA_3,
	mmROT0_QM_CP_FENCE3_RDATA_4,
	mmROT0_QM_CP_FENCE0_CNT_0,
	mmROT0_QM_CP_FENCE0_CNT_1,
	mmROT0_QM_CP_FENCE0_CNT_2,
	mmROT0_QM_CP_FENCE0_CNT_3,
	mmROT0_QM_CP_FENCE0_CNT_4,
	mmROT0_QM_CP_FENCE1_CNT_0,
	mmROT0_QM_CP_FENCE1_CNT_1,
	mmROT0_QM_CP_FENCE1_CNT_2,
	mmROT0_QM_CP_FENCE1_CNT_3,
	mmROT0_QM_CP_FENCE1_CNT_4,
	mmROT0_QM_CP_FENCE2_CNT_0,
	mmROT0_QM_CP_FENCE2_CNT_1,
	mmROT0_QM_CP_FENCE2_CNT_2,
	mmROT0_QM_CP_FENCE2_CNT_3,
	mmROT0_QM_CP_FENCE2_CNT_4,
	mmROT0_QM_CP_FENCE3_CNT_0,
	mmROT0_QM_CP_FENCE3_CNT_1,
	mmROT0_QM_CP_FENCE3_CNT_2,
	mmROT0_QM_CP_FENCE3_CNT_3,
	mmROT0_QM_CP_FENCE3_CNT_4,
	mmROT0_QM_CQ_PTR_LO_0,
	mmROT0_QM_CQ_PTR_HI_0,
	mmROT0_QM_CQ_TSIZE_0,
	mmROT0_QM_CQ_CTL_0,
	mmROT0_QM_CQ_PTR_LO_1,
	mmROT0_QM_CQ_PTR_HI_1,
	mmROT0_QM_CQ_TSIZE_1,
	mmROT0_QM_CQ_CTL_1,
	mmROT0_QM_CQ_PTR_LO_2,
	mmROT0_QM_CQ_PTR_HI_2,
	mmROT0_QM_CQ_TSIZE_2,
	mmROT0_QM_CQ_CTL_2,
	mmROT0_QM_CQ_PTR_LO_3,
	mmROT0_QM_CQ_PTR_HI_3,
	mmROT0_QM_CQ_TSIZE_3,
	mmROT0_QM_CQ_CTL_3,
	mmROT0_QM_CQ_PTR_LO_4,
	mmROT0_QM_CQ_PTR_HI_4,
	mmROT0_QM_CQ_TSIZE_4,
	mmROT0_QM_CQ_CTL_4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR0_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR0_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR1_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR1_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR2_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR2_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR3_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR3_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR4_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR4_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR5_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR5_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR6_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR6_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR7_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR7_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR8_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR8_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR9_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR9_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR10_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR10_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR11_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR11_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR12_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR12_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR13_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR13_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR14_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR14_BASE + 4,
	mmROT0_QM_QMAN_WR64_BASE_ADDR15_BASE,
	mmROT0_QM_QMAN_WR64_BASE_ADDR15_BASE + 4,
	mmROT0_QM_ARC_CQ_PTR_LO,
	mmROT0_QM_ARC_CQ_PTR_LO_STS,
	mmROT0_QM_ARC_CQ_PTR_HI,
	mmROT0_QM_ARC_CQ_PTR_HI_STS,
	mmROT0_QM_ARB_CFG_0,
	mmROT0_QM_ARB_MST_QUIET_PER,
	mmROT0_QM_ARB_CHOICE_Q_PUSH,
	mmROT0_QM_ARB_WRR_WEIGHT_0,
	mmROT0_QM_ARB_WRR_WEIGHT_1,
	mmROT0_QM_ARB_WRR_WEIGHT_2,
	mmROT0_QM_ARB_WRR_WEIGHT_3,
	mmROT0_QM_ARB_BASE_LO,
	mmROT0_QM_ARB_BASE_HI,
	mmROT0_QM_ARB_MST_SLAVE_EN,
	mmROT0_QM_ARB_MST_SLAVE_EN_1,
	mmROT0_QM_ARB_MST_CRED_INC,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_0,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_1,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_2,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_3,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_4,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_5,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_6,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_7,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_8,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_9,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_10,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_11,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_12,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_13,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_14,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_15,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_16,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_17,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_18,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_19,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_20,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_21,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_22,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_23,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_24,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_25,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_26,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_27,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_28,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_29,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_30,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_31,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_32,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_33,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_34,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_35,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_36,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_37,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_38,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_39,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_40,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_41,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_42,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_43,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_44,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_45,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_46,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_47,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_48,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_49,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_50,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_51,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_52,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_53,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_54,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_55,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_56,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_57,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_58,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_59,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_60,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_61,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_62,
	mmROT0_QM_ARB_MST_CHOICE_PUSH_OFST_63,
	mmROT0_QM_ARB_SLV_ID,
	mmROT0_QM_ARB_SLV_MASTER_INC_CRED_OFST,
	mmROT0_QM_ARC_CQ_CFG0,
	mmROT0_QM_CQ_IFIFO_CI_0,
	mmROT0_QM_CQ_IFIFO_CI_1,
	mmROT0_QM_CQ_IFIFO_CI_2,
	mmROT0_QM_CQ_IFIFO_CI_3,
	mmROT0_QM_CQ_IFIFO_CI_4,
	mmROT0_QM_ARC_CQ_IFIFO_CI,
	mmROT0_QM_CQ_CTL_CI_0,
	mmROT0_QM_CQ_CTL_CI_1,
	mmROT0_QM_CQ_CTL_CI_2,
	mmROT0_QM_CQ_CTL_CI_3,
	mmROT0_QM_CQ_CTL_CI_4,
	mmROT0_QM_ARC_CQ_CTL_CI,
	mmROT0_QM_ARC_CQ_TSIZE,
	mmROT0_QM_ARC_CQ_CTL,
	mmROT0_QM_CP_SWITCH_WD_SET,
	mmROT0_QM_CP_EXT_SWITCH,
	mmROT0_QM_CP_PRED_0,
	mmROT0_QM_CP_PRED_1,
	mmROT0_QM_CP_PRED_2,
	mmROT0_QM_CP_PRED_3,
	mmROT0_QM_CP_PRED_4,
	mmROT0_QM_CP_PRED_UPEN_0,
	mmROT0_QM_CP_PRED_UPEN_1,
	mmROT0_QM_CP_PRED_UPEN_2,
	mmROT0_QM_CP_PRED_UPEN_3,
	mmROT0_QM_CP_PRED_UPEN_4,
	mmROT0_QM_CP_MSG_BASE0_ADDR_LO_0,
	mmROT0_QM_CP_MSG_BASE0_ADDR_LO_1,
	mmROT0_QM_CP_MSG_BASE0_ADDR_LO_2,
	mmROT0_QM_CP_MSG_BASE0_ADDR_LO_3,
	mmROT0_QM_CP_MSG_BASE0_ADDR_LO_4,
	mmROT0_QM_CP_MSG_BASE0_ADDR_HI_0,
	mmROT0_QM_CP_MSG_BASE0_ADDR_HI_1,
	mmROT0_QM_CP_MSG_BASE0_ADDR_HI_2,
	mmROT0_QM_CP_MSG_BASE0_ADDR_HI_3,
	mmROT0_QM_CP_MSG_BASE0_ADDR_HI_4,
	mmROT0_QM_CP_MSG_BASE1_ADDR_LO_0,
	mmROT0_QM_CP_MSG_BASE1_ADDR_LO_1,
	mmROT0_QM_CP_MSG_BASE1_ADDR_LO_2,
	mmROT0_QM_CP_MSG_BASE1_ADDR_LO_3,
	mmROT0_QM_CP_MSG_BASE1_ADDR_LO_4,
	mmROT0_QM_CP_MSG_BASE1_ADDR_HI_0,
	mmROT0_QM_CP_MSG_BASE1_ADDR_HI_1,
	mmROT0_QM_CP_MSG_BASE1_ADDR_HI_2,
	mmROT0_QM_CP_MSG_BASE1_ADDR_HI_3,
	mmROT0_QM_CP_MSG_BASE1_ADDR_HI_4,
	mmROT0_QM_CP_MSG_BASE2_ADDR_LO_0,
	mmROT0_QM_CP_MSG_BASE2_ADDR_LO_1,
	mmROT0_QM_CP_MSG_BASE2_ADDR_LO_2,
	mmROT0_QM_CP_MSG_BASE2_ADDR_LO_3,
	mmROT0_QM_CP_MSG_BASE2_ADDR_LO_4,
	mmROT0_QM_CP_MSG_BASE2_ADDR_HI_0,
	mmROT0_QM_CP_MSG_BASE2_ADDR_HI_1,
	mmROT0_QM_CP_MSG_BASE2_ADDR_HI_2,
	mmROT0_QM_CP_MSG_BASE2_ADDR_HI_3,
	mmROT0_QM_CP_MSG_BASE2_ADDR_HI_4,
	mmROT0_QM_CP_MSG_BASE3_ADDR_LO_0,
	mmROT0_QM_CP_MSG_BASE3_ADDR_LO_1,
	mmROT0_QM_CP_MSG_BASE3_ADDR_LO_2,
	mmROT0_QM_CP_MSG_BASE3_ADDR_LO_3,
	mmROT0_QM_CP_MSG_BASE3_ADDR_LO_4,
	mmROT0_QM_CP_MSG_BASE3_ADDR_HI_0,
	mmROT0_QM_CP_MSG_BASE3_ADDR_HI_1,
	mmROT0_QM_CP_MSG_BASE3_ADDR_HI_2,
	mmROT0_QM_CP_MSG_BASE3_ADDR_HI_3,
	mmROT0_QM_CP_MSG_BASE3_ADDR_HI_4,
	mmROT0_QM_ARC_CQ_IFIFO_MSG_BASE_LO,
	mmROT0_QM_ARC_CQ_CTL_MSG_BASE_LO,
	mmROT0_QM_CQ_IFIFO_MSG_BASE_LO,
	mmROT0_QM_CQ_CTL_MSG_BASE_LO,
	mmROT0_DESC_CONTEXT_ID,
	mmROT0_DESC_IN_IMG_START_ADDR_L,
	mmROT0_DESC_IN_IMG_START_ADDR_H,
	mmROT0_DESC_OUT_IMG_START_ADDR_L,
	mmROT0_DESC_OUT_IMG_START_ADDR_H,
	mmROT0_DESC_CFG,
	mmROT0_DESC_IM_READ_SLOPE,
	mmROT0_DESC_SIN_D,
	mmROT0_DESC_COS_D,
	mmROT0_DESC_IN_IMG,
	mmROT0_DESC_IN_STRIDE,
	mmROT0_DESC_IN_STRIPE,
	mmROT0_DESC_IN_CENTER,
	mmROT0_DESC_OUT_IMG,
	mmROT0_DESC_OUT_STRIDE,
	mmROT0_DESC_OUT_STRIPE,
	mmROT0_DESC_OUT_CENTER,
	mmROT0_DESC_BACKGROUND,
	mmROT0_DESC_CPL_MSG_EN,
	mmROT0_DESC_IDLE_STATE,
	mmROT0_DESC_CPL_MSG_ADDR,
	mmROT0_DESC_CPL_MSG_DATA,
	mmROT0_DESC_X_I_START_OFFSET,
	mmROT0_DESC_X_I_START_OFFSET_FLIP,
	mmROT0_DESC_X_I_FIRST,
	mmROT0_DESC_Y_I_FIRST,
	mmROT0_DESC_Y_I,
	mmROT0_DESC_OUT_STRIPE_SIZE,
	mmROT0_DESC_RSB_CFG_0,
	mmROT0_DESC_RSB_PAD_VAL,
	mmROT0_DESC_OWM_CFG,
	mmROT0_DESC_CTRL_CFG,
	mmROT0_DESC_PIXEL_PAD,
	mmROT0_DESC_PREC_SHIFT,
	mmROT0_DESC_MAX_VAL,
	mmROT0_DESC_A0_M11,
	mmROT0_DESC_A1_M12,
	mmROT0_DESC_A2,
	mmROT0_DESC_B0_M21,
	mmROT0_DESC_B1_M22,
	mmROT0_DESC_B2,
	mmROT0_DESC_C0,
	mmROT0_DESC_C1,
	mmROT0_DESC_C2,
	mmROT0_DESC_D0,
	mmROT0_DESC_D1,
	mmROT0_DESC_D2,
	mmROT0_DESC_INV_PROC_SIZE_M_1,
	mmROT0_DESC_MESH_IMG_START_ADDR_L,
	mmROT0_DESC_MESH_IMG_START_ADDR_H,
	mmROT0_DESC_MESH_IMG,
	mmROT0_DESC_MESH_STRIDE,
	mmROT0_DESC_MESH_STRIPE,
	mmROT0_DESC_MESH_CTRL,
	mmROT0_DESC_MESH_GH,
	mmROT0_DESC_MESH_GV,
	mmROT0_DESC_MRSB_CFG_0,
	mmROT0_DESC_MRSB_PAD_VAL,
	mmROT0_DESC_BUF_CFG,
	mmROT0_DESC_CID_OFFSET,
	mmROT0_DESC_PUSH_DESC
};

static const u32 gaudi2_pb_psoc_global_conf[] = {
	mmPSOC_GLOBAL_CONF_BASE
};

static const u32 gaudi2_pb_psoc[] = {
	mmPSOC_EFUSE_BASE,
	mmPSOC_BTL_BASE,
	mmPSOC_CS_TRACE_BASE,
	mmPSOC_DFT_EFUSE_BASE,
	mmPSOC_PID_BASE,
	mmPSOC_ARC0_CFG_BASE,
	mmPSOC_ARC0_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPSOC_ARC0_AUX_BASE,
	mmPSOC_ARC1_CFG_BASE,
	mmPSOC_ARC1_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPSOC_ARC1_AUX_BASE,
	mmJT_MSTR_IF_RR_SHRD_HBW_BASE,
	mmSMI_MSTR_IF_RR_SHRD_HBW_BASE,
	mmI2C_S_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPSOC_SVID0_BASE,
	mmPSOC_SVID1_BASE,
	mmPSOC_SVID2_BASE,
	mmPSOC_AVS0_BASE,
	mmPSOC_AVS1_BASE,
	mmPSOC_AVS2_BASE,
	mmPSOC_PWM0_BASE,
	mmPSOC_PWM1_BASE,
	mmPSOC_MSTR_IF_RR_SHRD_HBW_BASE,
};

static const u32 gaudi2_pb_pmmu[] = {
	mmPMMU_HBW_MMU_BASE,
	mmPMMU_HBW_STLB_BASE,
	mmPMMU_HBW_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPMMU_PIF_BASE,
};

static const u32 gaudi2_pb_psoc_pll[] = {
	mmPSOC_MME_PLL_CTRL_BASE,
	mmPSOC_CPU_PLL_CTRL_BASE,
	mmPSOC_VID_PLL_CTRL_BASE
};

static const u32 gaudi2_pb_pmmu_pll[] = {
	mmPMMU_MME_PLL_CTRL_BASE,
	mmPMMU_VID_PLL_CTRL_BASE
};

static const u32 gaudi2_pb_xbar_pll[] = {
	mmDCORE0_XBAR_DMA_PLL_CTRL_BASE,
	mmDCORE0_XBAR_MMU_PLL_CTRL_BASE,
	mmDCORE0_XBAR_IF_PLL_CTRL_BASE,
	mmDCORE0_XBAR_MESH_PLL_CTRL_BASE,
	mmDCORE1_XBAR_DMA_PLL_CTRL_BASE,
	mmDCORE1_XBAR_MMU_PLL_CTRL_BASE,
	mmDCORE1_XBAR_IF_PLL_CTRL_BASE,
	mmDCORE1_XBAR_MESH_PLL_CTRL_BASE,
	mmDCORE1_XBAR_HBM_PLL_CTRL_BASE,
	mmDCORE2_XBAR_DMA_PLL_CTRL_BASE,
	mmDCORE2_XBAR_MMU_PLL_CTRL_BASE,
	mmDCORE2_XBAR_IF_PLL_CTRL_BASE,
	mmDCORE2_XBAR_BANK_PLL_CTRL_BASE,
	mmDCORE2_XBAR_HBM_PLL_CTRL_BASE,
	mmDCORE3_XBAR_DMA_PLL_CTRL_BASE,
	mmDCORE3_XBAR_MMU_PLL_CTRL_BASE,
	mmDCORE3_XBAR_IF_PLL_CTRL_BASE,
	mmDCORE3_XBAR_BANK_PLL_CTRL_BASE
};

static const u32 gaudi2_pb_xft_pll[] = {
	mmDCORE0_HBM_PLL_CTRL_BASE,
	mmDCORE0_TPC_PLL_CTRL_BASE,
	mmDCORE0_PCI_PLL_CTRL_BASE,
	mmDCORE1_HBM_PLL_CTRL_BASE,
	mmDCORE1_TPC_PLL_CTRL_BASE,
	mmDCORE1_NIC_PLL_CTRL_BASE,
	mmDCORE2_HBM_PLL_CTRL_BASE,
	mmDCORE2_TPC_PLL_CTRL_BASE,
	mmDCORE3_HBM_PLL_CTRL_BASE,
	mmDCORE3_TPC_PLL_CTRL_BASE,
	mmDCORE3_NIC_PLL_CTRL_BASE,
};

static const u32 gaudi2_pb_pcie[] = {
	mmPCIE_ELBI_RR_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPCIE_LBW_RR_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPCIE_MSTR_RR_MSTR_IF_RR_SHRD_HBW_BASE,
	mmPCIE_WRAP_BASE,
};

static const u32 gaudi2_pb_pcie_unsecured_regs[] = {
	mmPCIE_WRAP_SPECIAL_GLBL_SPARE_0,
};

static const u32 gaudi2_pb_thermal_sensor0[] = {
	mmDCORE0_XFT_BASE,
	mmDCORE0_TSTDVS_BASE,
};

static const u32 gaudi2_pb_hbm[] = {
	mmHBM0_MC0_BASE,
	mmHBM0_MC1_BASE,
};

static const u32 gaudi2_pb_mme_qm_arc_acp_eng[] = {
	mmDCORE0_MME_QM_ARC_ACP_ENG_BASE,
};

static const struct range gaudi2_pb_mme_qm_arc_acp_eng_unsecured_regs[] = {
	{mmDCORE0_MME_QM_ARC_ACP_ENG_ACP_PI_REG_0, mmDCORE0_MME_QM_ARC_ACP_ENG_ACP_DBG_REG},
};

struct gaudi2_tpc_pb_data {
	struct hl_block_glbl_sec *glbl_sec;
	u32 block_array_size;
};

static void gaudi2_config_tpcs_glbl_sec(struct hl_device *hdev, int dcore, int inst, u32 offset,
						struct iterate_module_ctx *ctx)
{
	struct gaudi2_tpc_pb_data *pb_data = ctx->data;

	hl_config_glbl_sec(hdev, gaudi2_pb_dcr0_tpc0, pb_data->glbl_sec,
					offset, pb_data->block_array_size);
}

static int gaudi2_init_pb_tpc(struct hl_device *hdev)
{
	u32 stride, kernel_tensor_stride, qm_tensor_stride, block_array_size;
	struct gaudi2_tpc_pb_data tpc_pb_data;
	struct hl_block_glbl_sec *glbl_sec;
	struct iterate_module_ctx tpc_iter;
	int i;

	block_array_size = ARRAY_SIZE(gaudi2_pb_dcr0_tpc0);

	glbl_sec = kcalloc(block_array_size, sizeof(struct hl_block_glbl_sec), GFP_KERNEL);
	if (!glbl_sec)
		return -ENOMEM;

	kernel_tensor_stride = mmDCORE0_TPC0_CFG_KERNEL_TENSOR_1_BASE -
				mmDCORE0_TPC0_CFG_KERNEL_TENSOR_0_BASE;
	qm_tensor_stride = mmDCORE0_TPC0_CFG_QM_TENSOR_1_BASE - mmDCORE0_TPC0_CFG_QM_TENSOR_0_BASE;

	hl_secure_block(hdev, glbl_sec, block_array_size);
	hl_unsecure_registers(hdev, gaudi2_pb_dcr0_tpc0_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_tpc0_unsecured_regs),
			0, gaudi2_pb_dcr0_tpc0, glbl_sec,
			block_array_size);

	/* Unsecure all TPC kernel tensors */
	for (i = 0 ; i < TPC_NUM_OF_KERNEL_TENSORS ; i++)
		hl_unsecure_registers(hdev,
			gaudi2_pb_dcr0_tpc0_ktensor_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_tpc0_ktensor_unsecured_regs),
			i * kernel_tensor_stride, gaudi2_pb_dcr0_tpc0,
			glbl_sec, block_array_size);

	/* Unsecure all TPC QM tensors */
	for (i = 0 ; i < TPC_NUM_OF_QM_TENSORS ; i++)
		hl_unsecure_registers(hdev,
			gaudi2_pb_dcr0_tpc0_qtensor_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_tpc0_qtensor_unsecured_regs),
			i * qm_tensor_stride,
			gaudi2_pb_dcr0_tpc0, glbl_sec, block_array_size);

	/* unsecure all 32 TPC QM SRF regs */
	stride = mmDCORE0_TPC0_CFG_QM_SRF_1 - mmDCORE0_TPC0_CFG_QM_SRF_0;
	for (i = 0 ; i < 32 ; i++)
		hl_unsecure_register(hdev, mmDCORE0_TPC0_CFG_QM_SRF_0,
				i * stride, gaudi2_pb_dcr0_tpc0, glbl_sec,
				block_array_size);

	/* unsecure the 4 TPC LOCK VALUE regs */
	stride = mmDCORE0_TPC0_CFG_TPC_LOCK_VALUE_1 - mmDCORE0_TPC0_CFG_TPC_LOCK_VALUE_0;
	for (i = 0 ; i < 4 ; i++)
		hl_unsecure_register(hdev, mmDCORE0_TPC0_CFG_TPC_LOCK_VALUE_0,
				i * stride, gaudi2_pb_dcr0_tpc0, glbl_sec,
				block_array_size);

	/* prepare data for TPC iterator */
	tpc_pb_data.glbl_sec = glbl_sec;
	tpc_pb_data.block_array_size = block_array_size;
	tpc_iter.fn = &gaudi2_config_tpcs_glbl_sec;
	tpc_iter.data = &tpc_pb_data;
	gaudi2_iterate_tpcs(hdev, &tpc_iter);

	kfree(glbl_sec);

	return 0;
}

struct gaudi2_tpc_arc_pb_data {
	u32 unsecured_regs_arr_size;
	u32 arc_regs_arr_size;
};

static void gaudi2_config_tpcs_pb_ranges(struct hl_device *hdev, int dcore, int inst, u32 offset,
						struct iterate_module_ctx *ctx)
{
	struct gaudi2_tpc_arc_pb_data *pb_data = ctx->data;

	ctx->rc = hl_init_pb_ranges(hdev, HL_PB_SHARED, HL_PB_NA, 1,
					offset, gaudi2_pb_dcr0_tpc0_arc,
					pb_data->arc_regs_arr_size,
					gaudi2_pb_dcr0_tpc0_arc_unsecured_regs,
					pb_data->unsecured_regs_arr_size);
}

static int gaudi2_init_pb_tpc_arc(struct hl_device *hdev)
{
	struct gaudi2_tpc_arc_pb_data tpc_arc_pb_data;
	struct iterate_module_ctx tpc_iter;

	tpc_arc_pb_data.arc_regs_arr_size = ARRAY_SIZE(gaudi2_pb_dcr0_tpc0_arc);
	tpc_arc_pb_data.unsecured_regs_arr_size =
			ARRAY_SIZE(gaudi2_pb_dcr0_tpc0_arc_unsecured_regs);

	tpc_iter.fn = &gaudi2_config_tpcs_pb_ranges;
	tpc_iter.data = &tpc_arc_pb_data;
	gaudi2_iterate_tpcs(hdev, &tpc_iter);

	return tpc_iter.rc;
}

static int gaudi2_init_pb_sm_objs(struct hl_device *hdev)
{
	int i, j, glbl_sec_array_len = gaudi2_pb_dcr0_sm_objs.glbl_sec_length;
	u32 sec_entry, *sec_array, array_base, first_sob, first_mon;

	array_base = gaudi2_pb_dcr0_sm_objs.mm_block_base_addr +
				gaudi2_pb_dcr0_sm_objs.glbl_sec_offset;

	sec_array = kcalloc(glbl_sec_array_len, sizeof(u32), GFP_KERNEL);
	if (!sec_array)
		return -ENOMEM;

	first_sob = GAUDI2_RESERVED_SOB_NUMBER;
	first_mon = GAUDI2_RESERVED_MON_NUMBER;

	/* 8192 SOB_OBJs skipping first GAUDI2_MAX_PENDING_CS of them */
	for (j = i = first_sob ; i < DCORE_NUM_OF_SOB ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* 2048 MON_PAY ADDR_L skipping first GAUDI2_MAX_PENDING_CS of them */
	for (i = first_mon, j += i ; i < DCORE_NUM_OF_MONITORS ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* 2048 MON_PAY ADDR_H skipping first GAUDI2_MAX_PENDING_CS of them */
	for (i = first_mon, j += i ; i < DCORE_NUM_OF_MONITORS ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* 2048 MON_PAY DATA skipping first GAUDI2_MAX_PENDING_CS of them */
	for (i = first_mon, j += i ; i < DCORE_NUM_OF_MONITORS ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* 2048 MON_ARM skipping first GAUDI2_MAX_PENDING_CS of them */
	for (i = first_mon, j += i ; i < DCORE_NUM_OF_MONITORS ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* 2048 MON_CONFIG skipping first GAUDI2_MAX_PENDING_CS of them */
	for (i = first_mon, j += i ; i < DCORE_NUM_OF_MONITORS ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* 2048 MON_STATUS skipping first GAUDI2_MAX_PENDING_CS of them */
	for (i = first_mon, j += i ; i < DCORE_NUM_OF_MONITORS ; i++, j++)
		UNSET_GLBL_SEC_BIT(sec_array, j);

	/* Unsecure selected Dcore0 registers */
	for (i = 0 ; i < glbl_sec_array_len ; i++) {
		sec_entry = array_base + i * sizeof(u32);
		WREG32(sec_entry, sec_array[i]);
	}

	/* Unsecure Dcore1 - Dcore3 registers */
	memset(sec_array, -1, glbl_sec_array_len * sizeof(u32));

	for (i = 1 ; i < NUM_OF_DCORES ; i++) {
		for (j = 0 ; j < glbl_sec_array_len ; j++) {
			sec_entry = DCORE_OFFSET * i + array_base + j * sizeof(u32);
			WREG32(sec_entry, sec_array[j]);
		}
	}

	kfree(sec_array);

	return 0;
}

static void gaudi2_write_lbw_range_register(struct hl_device *hdev, u64 base, void *data)
{
	u32 reg_min_offset, reg_max_offset, write_min, write_max;
	struct rr_config *rr_cfg = (struct rr_config *) data;

	switch (rr_cfg->type) {
	case RR_TYPE_SHORT:
		reg_min_offset = RR_LBW_SEC_RANGE_MIN_SHORT_0_OFFSET;
		reg_max_offset = RR_LBW_SEC_RANGE_MAX_SHORT_0_OFFSET;
		break;

	case RR_TYPE_LONG:
		reg_min_offset = RR_LBW_SEC_RANGE_MIN_0_OFFSET;
		reg_max_offset = RR_LBW_SEC_RANGE_MAX_0_OFFSET;
		break;

	case RR_TYPE_SHORT_PRIV:
		reg_min_offset = RR_LBW_PRIV_RANGE_MIN_SHORT_0_OFFSET;
		reg_max_offset = RR_LBW_PRIV_RANGE_MAX_SHORT_0_OFFSET;
		break;

	case RR_TYPE_LONG_PRIV:
		reg_min_offset = RR_LBW_PRIV_RANGE_MIN_0_OFFSET;
		reg_max_offset = RR_LBW_PRIV_RANGE_MAX_0_OFFSET;
		break;

	default:
		dev_err(hdev->dev, "Invalid LBW RR type %u\n", rr_cfg->type);
		return;
	}

	reg_min_offset += rr_cfg->index * sizeof(u32);
	reg_max_offset += rr_cfg->index * sizeof(u32);

	if (rr_cfg->type == RR_TYPE_SHORT || rr_cfg->type == RR_TYPE_SHORT_PRIV) {
		write_min = FIELD_GET(RR_LBW_SHORT_MASK, lower_32_bits(rr_cfg->min));
		write_max = FIELD_GET(RR_LBW_SHORT_MASK, lower_32_bits(rr_cfg->max));

	} else {
		write_min = FIELD_GET(RR_LBW_LONG_MASK, lower_32_bits(rr_cfg->min));
		write_max = FIELD_GET(RR_LBW_LONG_MASK, lower_32_bits(rr_cfg->max));
	}

	/* Configure LBW RR:
	 * Both RR types start blocking from base address 0x1000007FF8000000
	 * SHORT RRs address bits [26:12]
	 * LONG RRs address bits [26:0]
	 */
	WREG32(base + reg_min_offset, write_min);
	WREG32(base + reg_max_offset, write_max);
}

void gaudi2_write_rr_to_all_lbw_rtrs(struct hl_device *hdev, u8 rr_type, u32 rr_index, u64 min_val,
					u64 max_val)
{
	struct dup_block_ctx block_ctx;
	struct rr_config rr_cfg;

	if ((rr_type == RR_TYPE_SHORT || rr_type == RR_TYPE_SHORT_PRIV) &&
								rr_index >= NUM_SHORT_LBW_RR) {

		dev_err(hdev->dev, "invalid short LBW %s range register index: %u",
			rr_type == RR_TYPE_SHORT ? "secure" : "privileged", rr_index);
		return;
	}

	if ((rr_type == RR_TYPE_LONG || rr_type == RR_TYPE_LONG_PRIV) &&
								rr_index >= NUM_LONG_LBW_RR) {

		dev_err(hdev->dev, "invalid long LBW %s range register index: %u",
			rr_type == RR_TYPE_LONG ? "secure" : "privileged", rr_index);
		return;
	}

	rr_cfg.type = rr_type;
	rr_cfg.index = rr_index;
	rr_cfg.min = min_val;
	rr_cfg.max = max_val;

	block_ctx.instance_cfg_fn = &gaudi2_write_lbw_range_register;
	block_ctx.data = &rr_cfg;

	/* SFT */
	block_ctx.base = mmSFT0_LBW_RTR_IF_MSTR_IF_RR_SHRD_LBW_BASE;
	block_ctx.blocks = NUM_OF_SFT;
	block_ctx.block_off = SFT_OFFSET;
	block_ctx.instances = SFT_NUM_OF_LBW_RTR;
	block_ctx.instance_off = SFT_LBW_RTR_OFFSET;
	gaudi2_init_blocks(hdev, &block_ctx);

	/* SIF */
	block_ctx.base = mmDCORE0_RTR0_MSTR_IF_RR_SHRD_LBW_BASE;
	block_ctx.blocks = NUM_OF_DCORES;
	block_ctx.block_off = DCORE_OFFSET;
	block_ctx.instances = NUM_OF_RTR_PER_DCORE;
	block_ctx.instance_off = DCORE_RTR_OFFSET;
	gaudi2_init_blocks(hdev, &block_ctx);

	block_ctx.blocks = 1;
	block_ctx.block_off = 0;
	block_ctx.instances = 1;
	block_ctx.instance_off = 0;

	/* PCIE ELBI */
	block_ctx.base = mmPCIE_ELBI_RR_MSTR_IF_RR_SHRD_LBW_BASE;
	gaudi2_init_blocks(hdev, &block_ctx);

	/* PCIE MSTR */
	block_ctx.base = mmPCIE_MSTR_RR_MSTR_IF_RR_SHRD_LBW_BASE;
	gaudi2_init_blocks(hdev, &block_ctx);

	/* PCIE LBW */
	block_ctx.base = mmPCIE_LBW_RR_MSTR_IF_RR_SHRD_LBW_BASE;
	gaudi2_init_blocks(hdev, &block_ctx);
}

static void gaudi2_init_lbw_range_registers_secure(struct hl_device *hdev)
{
	int i;

	/* Up to 14 14bit-address regs.
	 *
	 * - range 0: NIC0_CFG
	 * - range 1: NIC1_CFG
	 * - range 2: NIC2_CFG
	 * - range 3: NIC3_CFG
	 * - range 4: NIC4_CFG
	 * - range 5: NIC5_CFG
	 * - range 6: NIC6_CFG
	 * - range 7: NIC7_CFG
	 * - range 8: NIC8_CFG
	 * - range 9: NIC9_CFG
	 * - range 10: NIC10_CFG
	 * - range 11: NIC11_CFG + *_DBG (not including TPC_DBG)
	 *
	 * If F/W security is not enabled:
	 * - ranges 12,13: PSOC_CFG (excluding PSOC_TIMESTAMP)
	 */
	u64 lbw_range_min_short[] = {
		mmNIC0_TX_AXUSER_BASE,
		mmNIC1_TX_AXUSER_BASE,
		mmNIC2_TX_AXUSER_BASE,
		mmNIC3_TX_AXUSER_BASE,
		mmNIC4_TX_AXUSER_BASE,
		mmNIC5_TX_AXUSER_BASE,
		mmNIC6_TX_AXUSER_BASE,
		mmNIC7_TX_AXUSER_BASE,
		mmNIC8_TX_AXUSER_BASE,
		mmNIC9_TX_AXUSER_BASE,
		mmNIC10_TX_AXUSER_BASE,
		mmNIC11_TX_AXUSER_BASE,
		mmPSOC_I2C_M0_BASE,
		mmPSOC_EFUSE_BASE
	};
	u64 lbw_range_max_short[] = {
		mmNIC0_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC1_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC2_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC3_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC4_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC5_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC6_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC7_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC8_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC9_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC10_MAC_CH3_MAC_PCS_BASE + HL_BLOCK_SIZE,
		mmNIC11_DBG_FUNNEL_NCH_BASE + HL_BLOCK_SIZE,
		mmPSOC_WDOG_BASE + HL_BLOCK_SIZE,
		mmSVID2_AC_BASE + HL_BLOCK_SIZE
	};

	/* Up to 4 26bit-address regs.
	 *
	 * - range 0: TPC_DBG
	 * - range 1: PCIE_DBI.MSIX_DOORBELL_OFF
	 * - range 2/3: used in soft reset to block access to several blocks and are cleared here
	 */
	u64 lbw_range_min_long[] = {
		mmDCORE0_TPC0_ROM_TABLE_BASE,
		mmPCIE_DBI_MSIX_DOORBELL_OFF,
		0x0,
		0x0
	};
	u64 lbw_range_max_long[] = {
		mmDCORE3_TPC5_EML_CS_BASE + HL_BLOCK_SIZE,
		mmPCIE_DBI_MSIX_DOORBELL_OFF + 0x4,
		0x0,
		0x0
	};

	/* write short range registers to all lbw rtrs */
	for (i = 0 ; i < ARRAY_SIZE(lbw_range_min_short) ; i++) {
		if ((lbw_range_min_short[i] == mmPSOC_I2C_M0_BASE ||
				lbw_range_min_short[i] == mmPSOC_EFUSE_BASE) &&
				hdev->asic_prop.fw_security_enabled)
			continue;

		gaudi2_write_rr_to_all_lbw_rtrs(hdev, RR_TYPE_SHORT, i,
				lbw_range_min_short[i], lbw_range_max_short[i]);
	}

	/* write long range registers to all lbw rtrs */
	for (i = 0 ; i < ARRAY_SIZE(lbw_range_min_long) ; i++) {
		gaudi2_write_rr_to_all_lbw_rtrs(hdev, RR_TYPE_LONG, i,
				lbw_range_min_long[i], lbw_range_max_long[i]);
	}
}

static void gaudi2_init_lbw_range_registers(struct hl_device *hdev)
{
	gaudi2_init_lbw_range_registers_secure(hdev);
}

static void gaudi2_write_hbw_range_register(struct hl_device *hdev, u64 base, void *data)
{
	u32 min_lo_reg_offset, min_hi_reg_offset, max_lo_reg_offset, max_hi_reg_offset;
	struct rr_config *rr_cfg = (struct rr_config *) data;
	u64 val_min, val_max;

	switch (rr_cfg->type) {
	case RR_TYPE_SHORT:
		min_lo_reg_offset = RR_SHRD_HBW_SEC_RANGE_MIN_SHORT_LO_0_OFFSET;
		min_hi_reg_offset = RR_SHRD_HBW_SEC_RANGE_MIN_SHORT_HI_0_OFFSET;
		max_lo_reg_offset = RR_SHRD_HBW_SEC_RANGE_MAX_SHORT_LO_0_OFFSET;
		max_hi_reg_offset = RR_SHRD_HBW_SEC_RANGE_MAX_SHORT_HI_0_OFFSET;
		break;

	case RR_TYPE_LONG:
		min_lo_reg_offset = RR_SHRD_HBW_SEC_RANGE_MIN_LO_0_OFFSET;
		min_hi_reg_offset = RR_SHRD_HBW_SEC_RANGE_MIN_HI_0_OFFSET;
		max_lo_reg_offset = RR_SHRD_HBW_SEC_RANGE_MAX_LO_0_OFFSET;
		max_hi_reg_offset = RR_SHRD_HBW_SEC_RANGE_MAX_HI_0_OFFSET;
		break;

	case RR_TYPE_SHORT_PRIV:
		min_lo_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MIN_SHORT_LO_0_OFFSET;
		min_hi_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MIN_SHORT_HI_0_OFFSET;
		max_lo_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MAX_SHORT_LO_0_OFFSET;
		max_hi_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MAX_SHORT_HI_0_OFFSET;
		break;

	case RR_TYPE_LONG_PRIV:
		min_lo_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MIN_LO_0_OFFSET;
		min_hi_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MIN_HI_0_OFFSET;
		max_lo_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MAX_LO_0_OFFSET;
		max_hi_reg_offset = RR_SHRD_HBW_PRIV_RANGE_MAX_HI_0_OFFSET;
		break;

	default:
		dev_err(hdev->dev, "Invalid HBW RR type %u\n", rr_cfg->type);
		return;
	}

	min_lo_reg_offset += rr_cfg->index * sizeof(u32);
	min_hi_reg_offset += rr_cfg->index * sizeof(u32);
	max_lo_reg_offset += rr_cfg->index * sizeof(u32);
	max_hi_reg_offset += rr_cfg->index * sizeof(u32);

	if (rr_cfg->type == RR_TYPE_SHORT || rr_cfg->type == RR_TYPE_SHORT_PRIV) {
		val_min = FIELD_GET(RR_HBW_SHORT_HI_MASK, rr_cfg->min) |
				FIELD_GET(RR_HBW_SHORT_LO_MASK, rr_cfg->min);
		val_max = FIELD_GET(RR_HBW_SHORT_HI_MASK, rr_cfg->max) |
				FIELD_GET(RR_HBW_SHORT_LO_MASK, rr_cfg->max);
	} else {
		val_min = FIELD_GET(RR_HBW_LONG_HI_MASK, rr_cfg->min) |
				FIELD_GET(RR_HBW_LONG_LO_MASK, rr_cfg->min);
		val_max = FIELD_GET(RR_HBW_LONG_HI_MASK, rr_cfg->max) |
				FIELD_GET(RR_HBW_LONG_LO_MASK, rr_cfg->max);
	}

	/* Configure HBW RR:
	 * SHORT RRs (0x1000_<36bits>000) - HI: address bits [47:44], LO: address bits [43:12]
	 * LONG  RRs (0x<52bits>000)      - HI: address bits [63:44], LO: address bits [43:12]
	 */
	WREG32(base + min_lo_reg_offset, lower_32_bits(val_min));
	WREG32(base + min_hi_reg_offset, upper_32_bits(val_min));
	WREG32(base + max_lo_reg_offset, lower_32_bits(val_max));
	WREG32(base + max_hi_reg_offset, upper_32_bits(val_max));
}

static void gaudi2_write_hbw_rr_to_all_mstr_if(struct hl_device *hdev, u8 rr_type, u32 rr_index,
						u64 min_val, u64 max_val)
{
	struct dup_block_ctx block_ctx;
	struct rr_config rr_cfg;

	if ((rr_type == RR_TYPE_SHORT || rr_type == RR_TYPE_SHORT_PRIV) &&
								rr_index >= NUM_SHORT_HBW_RR) {

		dev_err(hdev->dev, "invalid short HBW %s range register index: %u",
			rr_type == RR_TYPE_SHORT ? "secure" : "privileged", rr_index);
		return;
	}

	if ((rr_type == RR_TYPE_LONG || rr_type == RR_TYPE_LONG_PRIV) &&
								rr_index >= NUM_LONG_HBW_RR) {

		dev_err(hdev->dev, "invalid long HBW %s range register index: %u",
			rr_type == RR_TYPE_LONG ? "secure" : "privileged", rr_index);
		return;
	}

	rr_cfg.type = rr_type;
	rr_cfg.index = rr_index;
	rr_cfg.min = min_val;
	rr_cfg.max = max_val;

	block_ctx.instance_cfg_fn = &gaudi2_write_hbw_range_register;
	block_ctx.data = &rr_cfg;

	/* SFT */
	block_ctx.base = mmSFT0_HBW_RTR_IF0_MSTR_IF_RR_SHRD_HBW_BASE;
	block_ctx.blocks = NUM_OF_SFT;
	block_ctx.block_off = SFT_OFFSET;
	block_ctx.instances = SFT_NUM_OF_HBW_RTR;
	block_ctx.instance_off = SFT_IF_RTR_OFFSET;
	gaudi2_init_blocks(hdev, &block_ctx);

	/* SIF */
	block_ctx.base = mmDCORE0_RTR0_MSTR_IF_RR_SHRD_HBW_BASE;
	block_ctx.blocks = NUM_OF_DCORES;
	block_ctx.block_off = DCORE_OFFSET;
	block_ctx.instances = NUM_OF_RTR_PER_DCORE;
	block_ctx.instance_off = DCORE_RTR_OFFSET;
	gaudi2_init_blocks(hdev, &block_ctx);

	/* PCIE MSTR */
	block_ctx.base = mmPCIE_MSTR_RR_MSTR_IF_RR_SHRD_HBW_BASE;
	block_ctx.blocks = 1;
	block_ctx.block_off = 0;
	block_ctx.instances = 1;
	block_ctx.instance_off = 0;
	gaudi2_init_blocks(hdev, &block_ctx);
}

static void gaudi2_init_hbw_range_registers(struct hl_device *hdev)
{
	int i;

	/* Up to 6 short RR (0x1000_<36bits>000) and 4 long RR (0x<52bits>000).
	 *
	 * - short range 0:
	 *	SPI Flash, ARC0/1 ICCM/DCCM, Secure Boot ROM, PSOC_FW/Scratchpad/PCIE_FW SRAM
	 */
	u64 hbw_range_min_short[] = {
		SPI_FLASH_BASE_ADDR
	};
	u64 hbw_range_max_short[] = {
		PCIE_FW_SRAM_ADDR + PCIE_FW_SRAM_SIZE
	};

	for (i = 0 ; i < ARRAY_SIZE(hbw_range_min_short) ; i++) {
		gaudi2_write_hbw_rr_to_all_mstr_if(hdev, RR_TYPE_SHORT, i, hbw_range_min_short[i],
							hbw_range_max_short[i]);
	}
}

static void gaudi2_write_mmu_range_register(struct hl_device *hdev, u64 base,
						struct rr_config *rr_cfg)
{
	u32 min_lo_reg_offset, min_hi_reg_offset, max_lo_reg_offset, max_hi_reg_offset;

	switch (rr_cfg->type) {
	case RR_TYPE_LONG:
		min_lo_reg_offset = MMU_RR_SEC_MIN_31_0_0_OFFSET;
		min_hi_reg_offset = MMU_RR_SEC_MIN_63_32_0_OFFSET;
		max_lo_reg_offset = MMU_RR_SEC_MAX_31_0_0_OFFSET;
		max_hi_reg_offset = MMU_RR_SEC_MAX_63_32_0_OFFSET;
		break;

	case RR_TYPE_LONG_PRIV:
		min_lo_reg_offset = MMU_RR_PRIV_MIN_31_0_0_OFFSET;
		min_hi_reg_offset = MMU_RR_PRIV_MIN_63_32_0_OFFSET;
		max_lo_reg_offset = MMU_RR_PRIV_MAX_31_0_0_OFFSET;
		max_hi_reg_offset = MMU_RR_PRIV_MAX_63_32_0_OFFSET;
		break;

	default:
		dev_err(hdev->dev, "Invalid MMU RR type %u\n", rr_cfg->type);
		return;
	}

	min_lo_reg_offset += rr_cfg->index * sizeof(u32);
	min_hi_reg_offset += rr_cfg->index * sizeof(u32);
	max_lo_reg_offset += rr_cfg->index * sizeof(u32);
	max_hi_reg_offset += rr_cfg->index * sizeof(u32);

	/* Configure MMU RR (address bits [63:0]) */
	WREG32(base + min_lo_reg_offset, lower_32_bits(rr_cfg->min));
	WREG32(base + min_hi_reg_offset, upper_32_bits(rr_cfg->min));
	WREG32(base + max_lo_reg_offset, lower_32_bits(rr_cfg->max));
	WREG32(base + max_hi_reg_offset, upper_32_bits(rr_cfg->max));
}

static void gaudi2_init_mmu_range_registers(struct hl_device *hdev)
{
	u32 dcore_id, hmmu_id, hmmu_base;
	struct rr_config rr_cfg;

	/* Up to 8 ranges [63:0].
	 *
	 * - range 0: Reserved HBM area for F/W and driver
	 */

	/* The RRs are located after the HMMU so need to use the scrambled addresses */
	rr_cfg.min = hdev->asic_funcs->scramble_addr(hdev, DRAM_PHYS_BASE);
	rr_cfg.max = hdev->asic_funcs->scramble_addr(hdev, hdev->asic_prop.dram_user_base_address);
	rr_cfg.index = 0;
	rr_cfg.type = RR_TYPE_LONG;

	for (dcore_id = 0 ; dcore_id < NUM_OF_DCORES ; dcore_id++) {
		for (hmmu_id = 0 ; hmmu_id < NUM_OF_HMMU_PER_DCORE; hmmu_id++) {
			if (!gaudi2_is_hmmu_enabled(hdev, dcore_id, hmmu_id))
				continue;

			hmmu_base = mmDCORE0_HMMU0_MMU_BASE + dcore_id * DCORE_OFFSET +
					hmmu_id * DCORE_HMMU_OFFSET;

			gaudi2_write_mmu_range_register(hdev, hmmu_base, &rr_cfg);
		}
	}
}

/**
 * gaudi2_init_range_registers -
 * Initialize range registers of all initiators
 *
 * @hdev: pointer to hl_device structure
 */
static void gaudi2_init_range_registers(struct hl_device *hdev)
{
	gaudi2_init_lbw_range_registers(hdev);
	gaudi2_init_hbw_range_registers(hdev);
	gaudi2_init_mmu_range_registers(hdev);
}

/**
 * gaudi2_init_protection_bits -
 * Initialize protection bits of specific registers
 *
 * @hdev: pointer to hl_device structure
 *
 * All protection bits are 1 by default, means not protected. Need to set to 0
 * each bit that belongs to a protected register.
 *
 */
static int gaudi2_init_protection_bits(struct hl_device *hdev)
{
	struct asic_fixed_properties *prop = &hdev->asic_prop;
	u32 instance_offset;
	int rc = 0;
	u8 i;

	/* SFT */
	instance_offset = mmSFT1_HBW_RTR_IF0_RTR_CTRL_BASE - mmSFT0_HBW_RTR_IF0_RTR_CTRL_BASE;
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA, 4, instance_offset,
			gaudi2_pb_sft0, ARRAY_SIZE(gaudi2_pb_sft0),
			NULL, HL_PB_NA);

	/* HIF */
	instance_offset = mmDCORE0_HIF1_BASE - mmDCORE0_HIF0_BASE;
	rc |= hl_init_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			NUM_OF_HIF_PER_DCORE, instance_offset,
			gaudi2_pb_dcr0_hif, ARRAY_SIZE(gaudi2_pb_dcr0_hif),
			NULL, HL_PB_NA, prop->hmmu_hif_enabled_mask);

	/* RTR */
	instance_offset = mmDCORE0_RTR1_CTRL_BASE - mmDCORE0_RTR0_CTRL_BASE;
	rc |= hl_init_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, 8, instance_offset,
			gaudi2_pb_dcr0_rtr0, ARRAY_SIZE(gaudi2_pb_dcr0_rtr0),
			NULL, HL_PB_NA);

	/* HMMU */
	rc |= hl_init_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			NUM_OF_HMMU_PER_DCORE, DCORE_HMMU_OFFSET,
			gaudi2_pb_dcr0_hmmu0, ARRAY_SIZE(gaudi2_pb_dcr0_hmmu0),
			NULL, HL_PB_NA, prop->hmmu_hif_enabled_mask);

	/* CPU.
	 * Except for CPU_IF, skip when security is enabled in F/W, because the blocks are protected
	 * by privileged RR.
	 */
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_cpu_if, ARRAY_SIZE(gaudi2_pb_cpu_if),
			NULL, HL_PB_NA);

	if (!hdev->asic_prop.fw_security_enabled)
		rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_cpu, ARRAY_SIZE(gaudi2_pb_cpu),
				NULL, HL_PB_NA);

	/* KDMA */
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_kdma, ARRAY_SIZE(gaudi2_pb_kdma),
			NULL, HL_PB_NA);

	/* PDMA */
	instance_offset = mmPDMA1_CORE_BASE - mmPDMA0_CORE_BASE;
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA, 2, instance_offset,
			gaudi2_pb_pdma0, ARRAY_SIZE(gaudi2_pb_pdma0),
			gaudi2_pb_pdma0_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_pdma0_unsecured_regs));

	/* ARC PDMA */
	rc |= hl_init_pb_ranges(hdev, HL_PB_SHARED, HL_PB_NA, 2,
			instance_offset, gaudi2_pb_pdma0_arc,
			ARRAY_SIZE(gaudi2_pb_pdma0_arc),
			gaudi2_pb_pdma0_arc_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_pdma0_arc_unsecured_regs));

	/* EDMA */
	instance_offset = mmDCORE0_EDMA1_CORE_BASE - mmDCORE0_EDMA0_CORE_BASE;
	rc |= hl_init_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET, 2,
			instance_offset, gaudi2_pb_dcr0_edma0,
			ARRAY_SIZE(gaudi2_pb_dcr0_edma0),
			gaudi2_pb_dcr0_edma0_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_edma0_unsecured_regs),
			prop->edma_enabled_mask);

	/* ARC EDMA */
	rc |= hl_init_pb_ranges_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET, 2,
			instance_offset, gaudi2_pb_dcr0_edma0_arc,
			ARRAY_SIZE(gaudi2_pb_dcr0_edma0_arc),
			gaudi2_pb_dcr0_edma0_arc_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_edma0_arc_unsecured_regs),
			prop->edma_enabled_mask);

	/* MME */
	instance_offset = mmDCORE0_MME_SBTE1_BASE - mmDCORE0_MME_SBTE0_BASE;

	for (i = 0 ; i < NUM_OF_DCORES * NUM_OF_MME_PER_DCORE ; i++) {
		/* MME SBTE */
		rc |= hl_init_pb_single_dcore(hdev, (DCORE_OFFSET * i), 5,
				instance_offset, gaudi2_pb_dcr0_mme_sbte,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_sbte), NULL,
				HL_PB_NA);

		/* MME */
		rc |= hl_init_pb_single_dcore(hdev, (DCORE_OFFSET * i),
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_mme_eng,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_eng),
				gaudi2_pb_dcr0_mme_eng_unsecured_regs,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_eng_unsecured_regs));
	}

	/*
	 * we have special iteration for case in which we would like to
	 * configure stubbed MME's ARC/QMAN
	 */
	for (i = 0 ; i < NUM_OF_DCORES * NUM_OF_MME_PER_DCORE ; i++) {
		/* MME QM */
		rc |= hl_init_pb_single_dcore(hdev, (DCORE_OFFSET * i),
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_mme_qm,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_qm),
				gaudi2_pb_dcr0_mme_qm_unsecured_regs,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_qm_unsecured_regs));

		/* ARC MME */
		rc |= hl_init_pb_ranges_single_dcore(hdev, (DCORE_OFFSET * i),
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr0_mme_arc,
			ARRAY_SIZE(gaudi2_pb_dcr0_mme_arc),
			gaudi2_pb_dcr0_mme_arc_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_mme_arc_unsecured_regs));
	}

	/* MME QM ARC ACP ENG */
	rc |= hl_init_pb_ranges_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_mme_qm_arc_acp_eng,
			ARRAY_SIZE(gaudi2_pb_mme_qm_arc_acp_eng),
			gaudi2_pb_mme_qm_arc_acp_eng_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_mme_qm_arc_acp_eng_unsecured_regs),
			(BIT(NUM_OF_DCORES * NUM_OF_MME_PER_DCORE) - 1));

	/* TPC */
	rc |= gaudi2_init_pb_tpc(hdev);
	rc |= gaudi2_init_pb_tpc_arc(hdev);

	/* SRAM */
	instance_offset = mmDCORE0_SRAM1_BANK_BASE - mmDCORE0_SRAM0_BANK_BASE;
	rc |= hl_init_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, 8, instance_offset,
			gaudi2_pb_dcr0_sram0, ARRAY_SIZE(gaudi2_pb_dcr0_sram0),
			NULL, HL_PB_NA);

	/* Sync Manager MSTR IF */
	rc |= hl_init_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr0_sm_mstr_if,
			ARRAY_SIZE(gaudi2_pb_dcr0_sm_mstr_if),
			NULL, HL_PB_NA);

	/* Sync Manager GLBL */

	/* Secure Dcore0 CQ0 registers */
	rc |= hl_init_pb_ranges(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr0_sm_glbl,
			ARRAY_SIZE(gaudi2_pb_dcr0_sm_glbl),
			gaudi2_pb_dcr0_sm_glbl_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr0_sm_glbl_unsecured_regs));

	/* Unsecure all other CQ registers */
	rc |= hl_init_pb_ranges(hdev, NUM_OF_DCORES - 1, DCORE_OFFSET,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr1_sm_glbl,
			ARRAY_SIZE(gaudi2_pb_dcr1_sm_glbl),
			gaudi2_pb_dcr_x_sm_glbl_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_dcr_x_sm_glbl_unsecured_regs));

	/* PSOC.
	 * Except for PSOC_GLOBAL_CONF, skip when security is enabled in F/W, because the blocks are
	 * protected by privileged RR.
	 */
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_psoc_global_conf, ARRAY_SIZE(gaudi2_pb_psoc_global_conf),
			NULL, HL_PB_NA);

	if (!hdev->asic_prop.fw_security_enabled)
		rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_psoc, ARRAY_SIZE(gaudi2_pb_psoc),
				NULL, HL_PB_NA);

	/* PMMU */
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_pmmu, ARRAY_SIZE(gaudi2_pb_pmmu),
			NULL, HL_PB_NA);

	/* PLL.
	 * Skip PSOC/XFT PLL when security is enabled in F/W, because these blocks are protected by
	 * privileged RR.
	 */
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_pmmu_pll, ARRAY_SIZE(gaudi2_pb_pmmu_pll),
			NULL, HL_PB_NA);
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_xbar_pll, ARRAY_SIZE(gaudi2_pb_xbar_pll),
			NULL, HL_PB_NA);

	if (!hdev->asic_prop.fw_security_enabled) {
		rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_psoc_pll, ARRAY_SIZE(gaudi2_pb_psoc_pll),
				NULL, HL_PB_NA);
		rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_xft_pll, ARRAY_SIZE(gaudi2_pb_xft_pll),
				NULL, HL_PB_NA);
	}

	/* PCIE */
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_pcie, ARRAY_SIZE(gaudi2_pb_pcie),
			gaudi2_pb_pcie_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_pcie_unsecured_regs));

	/* Thermal Sensor.
	 * Skip when security is enabled in F/W, because the blocks are protected by privileged RR.
	 */
	if (!hdev->asic_prop.fw_security_enabled) {
		instance_offset = mmDCORE1_XFT_BASE - mmDCORE0_XFT_BASE;
		rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA, 4, instance_offset,
				gaudi2_pb_thermal_sensor0,
				ARRAY_SIZE(gaudi2_pb_thermal_sensor0), NULL, HL_PB_NA);
	}

	/* Scheduler ARCs */
	instance_offset = mmARC_FARM_ARC1_AUX_BASE - mmARC_FARM_ARC0_AUX_BASE;
	rc |= hl_init_pb_ranges(hdev, HL_PB_SHARED, HL_PB_NA,
			NUM_OF_ARC_FARMS_ARC,
			instance_offset, gaudi2_pb_arc_sched,
			ARRAY_SIZE(gaudi2_pb_arc_sched),
			gaudi2_pb_arc_sched_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_arc_sched_unsecured_regs));

	/* XBAR MIDs */
	instance_offset = mmXBAR_MID_1_BASE - mmXBAR_MID_0_BASE;
	rc |= hl_init_pb(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_XBAR,
			instance_offset, gaudi2_pb_xbar_mid,
			ARRAY_SIZE(gaudi2_pb_xbar_mid),
			gaudi2_pb_xbar_mid_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_xbar_mid_unsecured_regs));

	/* XBAR EDGEs */
	instance_offset = mmXBAR_EDGE_1_BASE - mmXBAR_EDGE_0_BASE;
	rc |= hl_init_pb_with_mask(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_XBAR,
			instance_offset, gaudi2_pb_xbar_edge,
			ARRAY_SIZE(gaudi2_pb_xbar_edge),
			gaudi2_pb_xbar_edge_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_xbar_edge_unsecured_regs),
			prop->xbar_edge_enabled_mask);

	/* NIC */
	rc |= hl_init_pb_with_mask(hdev, NIC_NUMBER_OF_MACROS, NIC_OFFSET,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_nic0, ARRAY_SIZE(gaudi2_pb_nic0),
			NULL, HL_PB_NA, hdev->nic_ports_mask);

	/* NIC QM and QPC */
	rc |= hl_init_pb_with_mask(hdev, NIC_NUMBER_OF_MACROS, NIC_OFFSET,
			NIC_NUMBER_OF_QM_PER_MACRO, NIC_QM_OFFSET,
			gaudi2_pb_nic0_qm_qpc, ARRAY_SIZE(gaudi2_pb_nic0_qm_qpc),
			gaudi2_pb_nic0_qm_qpc_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_nic0_qm_qpc_unsecured_regs),
			hdev->nic_ports_mask);

	/* NIC QM ARC */
	rc |= hl_init_pb_ranges_with_mask(hdev, NIC_NUMBER_OF_MACROS,
			NIC_OFFSET, NIC_NUMBER_OF_QM_PER_MACRO, NIC_QM_OFFSET,
			gaudi2_pb_nic0_qm_arc_aux0,
			ARRAY_SIZE(gaudi2_pb_nic0_qm_arc_aux0),
			gaudi2_pb_nic0_qm_arc_aux0_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_nic0_qm_arc_aux0_unsecured_regs),
			hdev->nic_ports_mask);

	/* NIC UMR */
	rc |= hl_init_pb_ranges_with_mask(hdev, NIC_NUMBER_OF_MACROS,
			NIC_OFFSET, NIC_NUMBER_OF_QM_PER_MACRO, NIC_QM_OFFSET,
			gaudi2_pb_nic0_umr,
			ARRAY_SIZE(gaudi2_pb_nic0_umr),
			gaudi2_pb_nic0_umr_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_nic0_umr_unsecured_regs),
			hdev->nic_ports_mask);

	/* Rotators */
	instance_offset = mmROT1_BASE - mmROT0_BASE;
	rc |= hl_init_pb_with_mask(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_ROT,
			instance_offset, gaudi2_pb_rot0,
			ARRAY_SIZE(gaudi2_pb_rot0),
			gaudi2_pb_rot0_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_rot0_unsecured_regs),
			(BIT(NUM_OF_ROT) - 1));

	/* Rotators ARCS */
	rc |= hl_init_pb_ranges_with_mask(hdev, HL_PB_SHARED,
			HL_PB_NA, NUM_OF_ROT, instance_offset,
			gaudi2_pb_rot0_arc, ARRAY_SIZE(gaudi2_pb_rot0_arc),
			gaudi2_pb_rot0_arc_unsecured_regs,
			ARRAY_SIZE(gaudi2_pb_rot0_arc_unsecured_regs),
			(BIT(NUM_OF_ROT) - 1));

	rc |= gaudi2_init_pb_sm_objs(hdev);

	return rc;
}

/**
 * gaudi2_init_security - Initialize security model
 *
 * @hdev: pointer to hl_device structure
 *
 * Initialize the security model of the device
 * That includes range registers and protection bit per register.
 */
int gaudi2_init_security(struct hl_device *hdev)
{
	int rc;

	rc = gaudi2_init_protection_bits(hdev);
	if (rc)
		return rc;

	gaudi2_init_range_registers(hdev);

	return 0;
}

struct gaudi2_ack_pb_tpc_data {
	u32 tpc_regs_array_size;
	u32 arc_tpc_regs_array_size;
};

static void gaudi2_ack_pb_tpc_config(struct hl_device *hdev, int dcore, int inst, u32 offset,
					struct iterate_module_ctx *ctx)
{
	struct gaudi2_ack_pb_tpc_data *pb_data = ctx->data;

	hl_ack_pb_single_dcore(hdev, offset, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_tpc0, pb_data->tpc_regs_array_size);

	hl_ack_pb_single_dcore(hdev, offset, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_tpc0_arc, pb_data->arc_tpc_regs_array_size);
}

static void gaudi2_ack_pb_tpc(struct hl_device *hdev)
{
	struct iterate_module_ctx tpc_iter = {
		.fn = &gaudi2_ack_pb_tpc_config,
	};
	struct gaudi2_ack_pb_tpc_data data;

	data.tpc_regs_array_size = ARRAY_SIZE(gaudi2_pb_dcr0_tpc0);
	data.arc_tpc_regs_array_size = ARRAY_SIZE(gaudi2_pb_dcr0_tpc0_arc);
	tpc_iter.data = &data;

	gaudi2_iterate_tpcs(hdev, &tpc_iter);
}

/**
 * gaudi2_ack_protection_bits_errors - scan all blocks having protection bits
 * and for every protection error found, display the appropriate error message
 * and clear the error.
 *
 * @hdev: pointer to hl_device structure
 *
 * All protection bits are 1 by default, means not protected. Need to set to 0
 * each bit that belongs to a protected register.
 *
 */
void gaudi2_ack_protection_bits_errors(struct hl_device *hdev)
{
	struct asic_fixed_properties *prop = &hdev->asic_prop;
	u32 instance_offset;
	u8 i;

	/* SFT */
	instance_offset = mmSFT1_HBW_RTR_IF0_RTR_CTRL_BASE - mmSFT0_HBW_RTR_IF0_RTR_CTRL_BASE;
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, 4, instance_offset,
			gaudi2_pb_sft0, ARRAY_SIZE(gaudi2_pb_sft0));

	/* HIF */
	instance_offset = mmDCORE0_HIF1_BASE - mmDCORE0_HIF0_BASE;
	hl_ack_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			NUM_OF_HIF_PER_DCORE, instance_offset,
			gaudi2_pb_dcr0_hif, ARRAY_SIZE(gaudi2_pb_dcr0_hif),
			prop->hmmu_hif_enabled_mask);

	/* RTR */
	instance_offset = mmDCORE0_RTR1_CTRL_BASE - mmDCORE0_RTR0_CTRL_BASE;
	hl_ack_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, 8, instance_offset,
			gaudi2_pb_dcr0_rtr0, ARRAY_SIZE(gaudi2_pb_dcr0_rtr0));

	/* HMMU */
	hl_ack_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			NUM_OF_HMMU_PER_DCORE, DCORE_HMMU_OFFSET,
			gaudi2_pb_dcr0_hmmu0, ARRAY_SIZE(gaudi2_pb_dcr0_hmmu0),
			prop->hmmu_hif_enabled_mask);

	/* CPU.
	 * Except for CPU_IF, skip when security is enabled in F/W, because the blocks are protected
	 * by privileged RR.
	 */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_cpu_if, ARRAY_SIZE(gaudi2_pb_cpu_if));
	if (!hdev->asic_prop.fw_security_enabled)
		hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_cpu, ARRAY_SIZE(gaudi2_pb_cpu));

	/* KDMA */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_kdma, ARRAY_SIZE(gaudi2_pb_kdma));

	/* PDMA */
	instance_offset = mmPDMA1_CORE_BASE - mmPDMA0_CORE_BASE;
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, 2, instance_offset,
			gaudi2_pb_pdma0, ARRAY_SIZE(gaudi2_pb_pdma0));

	/* ARC PDMA */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, 2, instance_offset,
			gaudi2_pb_pdma0_arc, ARRAY_SIZE(gaudi2_pb_pdma0_arc));

	/* EDMA */
	instance_offset = mmDCORE0_EDMA1_CORE_BASE - mmDCORE0_EDMA0_CORE_BASE;
	hl_ack_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET, 2,
			instance_offset, gaudi2_pb_dcr0_edma0,
			ARRAY_SIZE(gaudi2_pb_dcr0_edma0),
			prop->edma_enabled_mask);

	/* ARC EDMA */
	hl_ack_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET, 2,
			instance_offset, gaudi2_pb_dcr0_edma0_arc,
			ARRAY_SIZE(gaudi2_pb_dcr0_edma0_arc),
			prop->edma_enabled_mask);

	/* MME */
	instance_offset = mmDCORE0_MME_SBTE1_BASE - mmDCORE0_MME_SBTE0_BASE;

	for (i = 0 ; i < NUM_OF_DCORES * NUM_OF_MME_PER_DCORE ; i++) {
		/* MME SBTE */
		hl_ack_pb_single_dcore(hdev, (DCORE_OFFSET * i), 5,
				instance_offset, gaudi2_pb_dcr0_mme_sbte,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_sbte));

		/* MME */
		hl_ack_pb_single_dcore(hdev, (DCORE_OFFSET * i),
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_mme_eng,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_eng));
	}

	/*
	 * we have special iteration for case in which we would like to
	 * configure stubbed MME's ARC/QMAN
	 */
	for (i = 0 ; i < NUM_OF_DCORES * NUM_OF_MME_PER_DCORE ; i++) {
		/* MME QM */
		hl_ack_pb_single_dcore(hdev, (DCORE_OFFSET * i),
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_mme_qm,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_qm));

		/* ARC MME */
		hl_ack_pb_single_dcore(hdev, (DCORE_OFFSET * i),
				HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_dcr0_mme_arc,
				ARRAY_SIZE(gaudi2_pb_dcr0_mme_arc));
	}

	/* MME QM ARC ACP ENG */
	hl_ack_pb_with_mask(hdev, NUM_OF_DCORES, DCORE_OFFSET,
			HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_mme_qm_arc_acp_eng,
			ARRAY_SIZE(gaudi2_pb_mme_qm_arc_acp_eng),
			(BIT(NUM_OF_DCORES * NUM_OF_MME_PER_DCORE) - 1));

	/* TPC */
	gaudi2_ack_pb_tpc(hdev);

	/* SRAM */
	instance_offset = mmDCORE0_SRAM1_BANK_BASE - mmDCORE0_SRAM0_BANK_BASE;
	hl_ack_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, 8, instance_offset,
			gaudi2_pb_dcr0_sram0, ARRAY_SIZE(gaudi2_pb_dcr0_sram0));

	/* Sync Manager MSTR IF */
	hl_ack_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr0_sm_mstr_if, ARRAY_SIZE(gaudi2_pb_dcr0_sm_mstr_if));

	/* Sync Manager */
	hl_ack_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr0_sm_glbl, ARRAY_SIZE(gaudi2_pb_dcr0_sm_glbl));

	hl_ack_pb(hdev, NUM_OF_DCORES, DCORE_OFFSET, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_dcr0_sm_mstr_if, ARRAY_SIZE(gaudi2_pb_dcr0_sm_mstr_if));

	/* PSOC.
	 * Except for PSOC_GLOBAL_CONF, skip when security is enabled in F/W, because the blocks are
	 * protected by privileged RR.
	 */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_psoc_global_conf, ARRAY_SIZE(gaudi2_pb_psoc_global_conf));
	if (!hdev->asic_prop.fw_security_enabled)
		hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_psoc, ARRAY_SIZE(gaudi2_pb_psoc));

	/* PMMU */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_pmmu, ARRAY_SIZE(gaudi2_pb_pmmu));

	/* PLL.
	 * Skip PSOC/XFT PLL when security is enabled in F/W, because these blocks are protected by
	 * privileged RR.
	 */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_pmmu_pll, ARRAY_SIZE(gaudi2_pb_pmmu_pll));
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_xbar_pll, ARRAY_SIZE(gaudi2_pb_xbar_pll));
	if (!hdev->asic_prop.fw_security_enabled) {
		hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_psoc_pll, ARRAY_SIZE(gaudi2_pb_psoc_pll));
		hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
				gaudi2_pb_xft_pll, ARRAY_SIZE(gaudi2_pb_xft_pll));
	}

	/* PCIE */
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_pcie, ARRAY_SIZE(gaudi2_pb_pcie));

	/* Thermal Sensor.
	 * Skip when security is enabled in F/W, because the blocks are protected by privileged RR.
	 */
	if (!hdev->asic_prop.fw_security_enabled) {
		instance_offset = mmDCORE1_XFT_BASE - mmDCORE0_XFT_BASE;
		hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, 4, instance_offset,
				gaudi2_pb_thermal_sensor0, ARRAY_SIZE(gaudi2_pb_thermal_sensor0));
	}

	/* HBM */
	instance_offset = mmHBM1_MC0_BASE - mmHBM0_MC0_BASE;
	hl_ack_pb_with_mask(hdev, HL_PB_SHARED, HL_PB_NA, GAUDI2_HBM_NUM,
			instance_offset, gaudi2_pb_hbm,
			ARRAY_SIZE(gaudi2_pb_hbm), prop->dram_enabled_mask);

	/* Scheduler ARCs */
	instance_offset = mmARC_FARM_ARC1_AUX_BASE - mmARC_FARM_ARC0_AUX_BASE;
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_ARC_FARMS_ARC,
			instance_offset, gaudi2_pb_arc_sched,
			ARRAY_SIZE(gaudi2_pb_arc_sched));

	/* XBAR MIDs */
	instance_offset = mmXBAR_MID_1_BASE - mmXBAR_MID_0_BASE;
	hl_ack_pb(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_XBAR,
			instance_offset, gaudi2_pb_xbar_mid,
			ARRAY_SIZE(gaudi2_pb_xbar_mid));

	/* XBAR EDGEs */
	instance_offset = mmXBAR_EDGE_1_BASE - mmXBAR_EDGE_0_BASE;
	hl_ack_pb_with_mask(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_XBAR,
			instance_offset, gaudi2_pb_xbar_edge,
			ARRAY_SIZE(gaudi2_pb_xbar_edge), prop->xbar_edge_enabled_mask);

	/* NIC */
	hl_ack_pb_with_mask(hdev, NIC_NUMBER_OF_MACROS, NIC_OFFSET, HL_PB_SINGLE_INSTANCE, HL_PB_NA,
			gaudi2_pb_nic0, ARRAY_SIZE(gaudi2_pb_nic0), hdev->nic_ports_mask);

	/* NIC QM and QPC */
	hl_ack_pb_with_mask(hdev, NIC_NUMBER_OF_MACROS, NIC_OFFSET, NIC_NUMBER_OF_QM_PER_MACRO,
			NIC_QM_OFFSET, gaudi2_pb_nic0_qm_qpc, ARRAY_SIZE(gaudi2_pb_nic0_qm_qpc),
			hdev->nic_ports_mask);

	/* NIC QM ARC */
	hl_ack_pb_with_mask(hdev, NIC_NUMBER_OF_MACROS, NIC_OFFSET, NIC_NUMBER_OF_QM_PER_MACRO,
			NIC_QM_OFFSET, gaudi2_pb_nic0_qm_arc_aux0,
			ARRAY_SIZE(gaudi2_pb_nic0_qm_arc_aux0), hdev->nic_ports_mask);

	/* NIC UMR */
	hl_ack_pb_with_mask(hdev, NIC_NUMBER_OF_MACROS, NIC_OFFSET, NIC_NUMBER_OF_QM_PER_MACRO,
			NIC_QM_OFFSET, gaudi2_pb_nic0_umr, ARRAY_SIZE(gaudi2_pb_nic0_umr),
			hdev->nic_ports_mask);

	/* Rotators */
	instance_offset = mmROT1_BASE - mmROT0_BASE;
	hl_ack_pb_with_mask(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_ROT, instance_offset,
			gaudi2_pb_rot0, ARRAY_SIZE(gaudi2_pb_rot0), (BIT(NUM_OF_ROT) - 1));

	/* Rotators ARCS */
	hl_ack_pb_with_mask(hdev, HL_PB_SHARED, HL_PB_NA, NUM_OF_ROT, instance_offset,
			gaudi2_pb_rot0_arc, ARRAY_SIZE(gaudi2_pb_rot0_arc), (BIT(NUM_OF_ROT) - 1));
}

/*
 * Print PB security errors
 */

void gaudi2_pb_print_security_errors(struct hl_device *hdev, u32 block_addr, u32 cause,
					u32 offended_addr)
{
	int i = 0;
	const char *error_format =
		"Security error at block 0x%x, offending address 0x%x\n"
		"Cause 0x%x: %s %s %s %s %s %s %s %s\n";
	char *mcause[8] = {"Unknown", "", "", "", "", "", "", "" };

	if (!cause)
		return;

	if (cause & SPECIAL_GLBL_ERR_CAUSE_APB_PRIV_RD)
		mcause[i++] = "APB_PRIV_RD";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_APB_SEC_RD)
		mcause[i++] = "APB_SEC_RD";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_APB_UNMAPPED_RD)
		mcause[i++] = "APB_UNMAPPED_RD";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_APB_PRIV_WR)
		mcause[i++] = "APB_PRIV_WR";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_APB_SEC_WR)
		mcause[i++] = "APB_SEC_WR";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_APB_UNMAPPED_WR)
		mcause[i++] = "APB_UNMAPPED_WR";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_EXT_SEC_WR)
		mcause[i++] = "EXT_SEC_WR";

	if (cause & SPECIAL_GLBL_ERR_CAUSE_EXT_UNMAPPED_WR)
		mcause[i++] = "APB_EXT_UNMAPPED_WR";

	dev_err_ratelimited(hdev->dev, error_format, block_addr, offended_addr,
			cause, mcause[0], mcause[1], mcause[2], mcause[3],
			mcause[4], mcause[5], mcause[6], mcause[7]);
}