/openbmc/linux/drivers/pinctrl/mvebu/ |
H A D | pinctrl-kirkwood.c | 19 #define V(f6180, f6190, f6192, f6281, f6282, dx4122, dx1135) \ macro 25 VARIANT_MV88F6180 = V(1, 0, 0, 0, 0, 0, 0), 26 VARIANT_MV88F6190 = V(0, 1, 0, 0, 0, 0, 0), 27 VARIANT_MV88F6192 = V(0, 0, 1, 0, 0, 0, 0), 28 VARIANT_MV88F6281 = V(0, 0, 0, 1, 0, 0, 0), 29 VARIANT_MV88F6282 = V(0, 0, 0, 0, 1, 0, 0), 30 VARIANT_MV98DX4122 = V(0, 0, 0, 0, 0, 1, 0), 31 VARIANT_MV98DX1135 = V(0, 0, 0, 0, 0, 0, 1), 36 MPP_VAR_FUNCTION(0x0, "gpio", NULL, V(1, 1, 1, 1, 1, 1, 1)), 37 MPP_VAR_FUNCTION(0x1, "nand", "io2", V(1, 1, 1, 1, 1, 1, 1)), [all …]
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/openbmc/linux/tools/memory-model/ |
H A D | linux-kernel.def | 10 WRITE_ONCE(X,V) { __store{once}(X,V); } 13 smp_store_release(X,V) { __store{release}(*X,V); } 15 rcu_assign_pointer(X,V) { __store{release}(X,V); } 17 smp_store_mb(X,V) { __store{once}(X,V); __fence{mb}; } 31 xchg(X,V) __xchg{mb}(X,V) 32 xchg_relaxed(X,V) __xchg{once}(X,V) 33 xchg_release(X,V) __xchg{release}(X,V) 34 xchg_acquire(X,V) __xchg{acquire}(X,V) 35 cmpxchg(X,V,W) __cmpxchg{mb}(X,V,W) 36 cmpxchg_relaxed(X,V,W) __cmpxchg{once}(X,V,W) [all …]
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/openbmc/qemu/tests/tcg/i386/ |
H A D | x86.csv | 105 # V, I, N.E., N.P., N.S., or N.I. 107 # column is "V" (valid) or not. 110 # with an incorrect "V" in the Valid32 column. 176 "PUSH imm32","-/PUSHL/PUSHQ imm32","-/pushl/pushq imm32","68 id","V","N.S.","","operand32","r","Y",… 177 "PUSH imm32","-/PUSHL/PUSHQ imm32","-/pushl/pushq imm32","68 id","N.S.","V","","default64","r","Y",… 178 "AAA","AAA","aaa","37","V","N.S.","","","","","" 179 "AAD","AAD","aad","D5 0A","V","I","","pseudo","","","" 180 "AAD imm8u","AAD imm8u","aad imm8u","D5 ib","V","N.S.","","","r","","" 181 "AAM","AAM","aam","D4 0A","V","I","","pseudo","","","" 182 "AAM imm8u","AAM imm8u","aam imm8u","D4 ib","V","N.S.","","","r","","" [all …]
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/openbmc/qemu/target/s390x/tcg/ |
H A D | insn-format.h.inc | 57 F3(VRI_a, V(1,8), I(2,16,16), M(3,32)) 58 F4(VRI_b, V(1,8), I(2,16,8), I(3,24,8), M(4,32)) 59 F4(VRI_c, V(1,8), V(3,12), I(2,16,16), M(4,32)) 60 F5(VRI_d, V(1,8), V(2,12), V(3,16), I(4,24,8), M(5,32)) 61 F5(VRI_e, V(1,8), V(2,12), I(3,16,12), M(5,28), M(4,32)) 62 F5(VRI_f, V(1,8), V(2,12), V(3,16), M(5,24), I(4,28,8)) 63 F5(VRI_g, V(1,8), V(2,12), I(4,16,8), M(5,24), I(3,28,8)) 64 F3(VRI_h, V(1,8), I(2,16,16), I(3,32,4)) 65 F4(VRI_i, V(1,8), R(2,12), M(4,24), I(3,28,8)) 66 F5(VRR_a, V(1,8), V(2,12), M(5,24), M(4,28), M(3,32)) [all …]
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/openbmc/linux/Documentation/hwmon/ |
H A D | mc13783-adc.rst | 47 0 Battery Voltage (BATT) 2.50 - 4.65V -2.40V 49 2 Application Supply (BP) 2.50 - 4.65V -2.40V 50 3 Charger Voltage (CHRGRAW) 0 - 10V / /5 51 0 - 20V /10 52 4 Charger Current (CHRGISNSP-CHRGISNSN) -0.25 - 0.25V x4 53 5 General Purpose ADIN5 / Battery Pack Thermistor 0 - 2.30V No 54 6 General Purpose ADIN6 / Backup Voltage (LICELL) 0 - 2.30V / No / 55 1.50 - 3.50V -1.20V 56 7 General Purpose ADIN7 / UID / Die Temperature 0 - 2.30V / No / 57 0 - 2.55V / x0.9 / No [all …]
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H A D | dme1737.rst | 94 in0: +5VTR (+5V standby) 0V - 6.64V 95 in1: Vccp (processor core) 0V - 3V 96 in2: VCC (internal +3.3V) 0V - 4.38V 97 in3: +5V 0V - 6.64V 98 in4: +12V 0V - 16V 99 in5: VTR (+3.3V standby) 0V - 4.38V 100 in6: Vbat (+3.0V) 0V - 4.38V 104 in0: +2.5V 0V - 3.32V 105 in1: Vccp (processor core) 0V - 2V 106 in2: VCC (internal +3.3V) 0V - 4.38V [all …]
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/openbmc/linux/arch/powerpc/lib/ |
H A D | xor_vmx.c | 24 #define DEFINE(V) \ argument 25 unative_t *V = (unative_t *)V##_in; \ 26 unative_t V##_0, V##_1, V##_2, V##_3 28 #define LOAD(V) \ argument 30 V##_0 = V[0]; \ 31 V##_1 = V[1]; \ 32 V##_2 = V[2]; \ 33 V##_3 = V[3]; \ 36 #define STORE(V) \ argument 38 V[0] = V##_0; \ [all …]
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/openbmc/linux/arch/m68k/fpsp040/ |
H A D | slogn.S | 384 fmulx %fp2,%fp2 | ...FP2 IS V=U*U 388 |--U + V*(A1+U*(A2+U*(A3+U*(A4+U*(A5+U*A6))))) WHICH IS 389 |--[U + V*(A1+V*(A3+V*A5))] + [U*V*(A2+V*(A4+V*A6))] 394 fmuld LOGA6,%fp1 | ...V*A6 395 fmuld LOGA5,%fp2 | ...V*A5 397 faddd LOGA4,%fp1 | ...A4+V*A6 398 faddd LOGA3,%fp2 | ...A3+V*A5 400 fmulx %fp3,%fp1 | ...V*(A4+V*A6) 401 fmulx %fp3,%fp2 | ...V*(A3+V*A5) 403 faddd LOGA2,%fp1 | ...A2+V*(A4+V*A6) [all …]
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/openbmc/u-boot/arch/arm/dts/ |
H A D | exynos4412-odroid.dts | 59 regulator-name = "VDD_ALIVE_1.0V"; 65 regulator-name = "VDDQ_VM1M2_1.2V"; 77 regulator-name = "VDDQ_MMC2_2.8V"; 83 regulator-name = "VDDQ_MMC0/1/3_1.8V"; 89 regulator-name = "VMPLL_1.0V"; 95 regulator-name = "VPLL_1.1V"; 101 regulator-name = "VDD_MIPI/HDMI_1.0V"; 107 regulator-name = "VDD_MIPI/HDMI_1.8V"; 113 regulator-name = "VDD_ABB1_1.8V"; 119 regulator-name = "VDD_UOTG_3.0V"; [all …]
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H A D | s5pc1xx-goni.dts | 51 regulator-name = "VALIVE_1.1V"; 59 regulator-name = "VUSB+MIPI_1.1V"; 67 regulator-name = "VADC_3.3V"; 74 regulator-name = "VTF_2.8V"; 81 regulator-name = "VCC_3.3V"; 88 regulator-name = "VLCD_1.8V"; 96 regulator-name = "VUSB+VDAC_3.3V"; 103 regulator-name = "VCC+VCAM_2.8V"; 110 regulator-name = "VPLL_1.1V"; 118 regulator-name = "CAM_IO_2.8V"; [all …]
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H A D | exynos4210-universal_c210.dts | 82 regulator-name = "VALIVE_1.2V"; 89 regulator-name = "VUSB+MIPI_1.1V"; 96 regulator-name = "VADC_3.3V"; 102 regulator-name = "VTF_2.8V"; 114 regulator-name = "VLCD+VMIPI_1.8V"; 120 regulator-name = "VUSB+VDAC_3.3V"; 127 regulator-name = "VCC_2.8V"; 134 regulator-name = "VPLL_1.1V"; 142 regulator-name = "CAM_AF_3.3V"; 148 regulator-name = "PS_2.8V"; [all …]
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/openbmc/linux/drivers/media/dvb-frontends/ |
H A D | mb86a16.c | 758 static int swp_freq_calcuation(struct mb86a16_state *state, int i, int v, int *V, int vmax, int vm… in swp_freq_calcuation() argument 766 (*(V + 30 + v) >= 0) && in swp_freq_calcuation() 767 (*(V + 30 + v - 1) >= 0) && in swp_freq_calcuation() 768 (*(V + 30 + v - 1) > *(V + 30 + v)) && in swp_freq_calcuation() 769 (*(V + 30 + v - 1) > SIGMIN)) { in swp_freq_calcuation() 772 *SIG1 = *(V + 30 + v - 1); in swp_freq_calcuation() 774 (*(V + 30 + v) >= 0) && in swp_freq_calcuation() 775 (*(V + 30 + v - 1) >= 0) && in swp_freq_calcuation() 776 (*(V + 30 + v) > *(V + 30 + v - 1)) && in swp_freq_calcuation() 777 (*(V + 30 + v) > SIGMIN)) { in swp_freq_calcuation() [all …]
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/openbmc/linux/Documentation/virt/hyperv/ |
H A D | overview.rst | 6 enlightened guest on Microsoft's Hyper-V hypervisor. Hyper-V 10 partitions. In this documentation, references to Hyper-V usually 15 Hyper-V runs on x86/x64 and arm64 architectures, and Linux guests 16 are supported on both. The functionality and behavior of Hyper-V is 19 Linux Guest Communication with Hyper-V 21 Linux guests communicate with Hyper-V in four different ways: 24 some guest actions trap to Hyper-V. Hyper-V emulates the action and 29 Hyper-V, passing parameters. Hyper-V performs the requested action 32 Hyper-V. On x86/x64, hypercalls use a Hyper-V specific calling 36 * Synthetic register access: Hyper-V implements a variety of [all …]
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H A D | clocks.rst | 8 On arm64, Hyper-V virtualizes the ARMv8 architectural system counter 12 architectural system counter is functional in guest VMs on Hyper-V. 13 While Hyper-V also provides a synthetic system clock and four synthetic 15 Linux kernel in a Hyper-V guest on arm64. However, older versions 16 of Hyper-V for arm64 only partially virtualize the ARMv8 19 Linux kernel versions on these older Hyper-V versions requires an 20 out-of-tree patch to use the Hyper-V synthetic clocks/timers instead. 24 On x86/x64, Hyper-V provides guest VMs with a synthetic system clock 25 and four synthetic per-CPU timers as described in the TLFS. Hyper-V 29 Hyper-V performs TSC calibration, and provides the TSC frequency [all …]
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/openbmc/linux/tools/build/tests/ |
H A D | run.sh | 5 make -C ex V=1 clean > ex.out 2>&1 6 make -C ex V=1 >> ex.out 2>&1 13 make -C ex V=1 clean > /dev/null 2>&1 18 make -C ex V=1 clean > ex.out 2>&1 21 make -rR -C ex V=1 ex.o >> ex.out 2>&1 22 make -rR -C ex V=1 ex.i >> ex.out 2>&1 23 make -rR -C ex V=1 ex.s >> ex.out 2>&1 35 make -C ex V=1 clean > /dev/null 2>&1 40 make -C ex V=1 clean > ex.out 2>&1 44 make -C ex V=1 CFLAGS=-DINCLUDE >> ex.out 2>&1 [all …]
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/openbmc/phosphor-logging/lib/include/phosphor-logging/lg2/ |
H A D | conversion.hpp | 92 template <log_flags... Fs, unsigned_integral_except_bool V> 93 static auto log_convert(const char* h, log_flag<Fs...> f, V v) in log_convert() 109 template <log_flags... Fs, std::signed_integral V> 110 static auto log_convert(const char* h, log_flag<Fs...> f, V v) in log_convert() 125 template <log_flags... Fs, std::same_as<bool> V> 126 static auto log_convert(const char* h, log_flag<Fs...> f, V v) in log_convert() 145 template <log_flags... Fs, std::floating_point V> 146 static auto log_convert(const char* h, log_flag<Fs...> f, V v) in log_convert() 165 template <log_flags... Fs, sdbusplus_enum V> 166 static auto log_convert(const char* h, log_flag<Fs...> f, V v) in log_convert() [all …]
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/openbmc/linux/Documentation/translations/zh_CN/riscv/ |
H A D | patch-acceptance.rst | 18 RISC-V指令集体系结构是公开开发的: 20 生更改---有时以不兼容的方式对以前的草案进行更改。这种灵活性可能会给RISC-V Linux 22 们希望推广同样的规则到即将被内核合并的RISC-V相关代码。 26 我们仅接受相关标准已经被RISC-V基金会标准为“已批准”或“已冻结”的扩展或模块的补丁。 29 此外,RISC-V规范允许爱好者创建自己的自定义扩展。这些自定义拓展不需要通过RISC-V 30 基金会的任何审核或批准。为了避免将爱好者一些特别的RISC-V拓展添加进内核代码带来 31 的维护复杂性和对性能的潜在影响,我们将只接受RISC-V基金会正式冻结或批准的的扩展
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/openbmc/linux/arch/alpha/kernel/ |
H A D | entry.S | 687 #define V(n) stt $f##n, FR(n) macro 688 V( 0); V( 1); V( 2); V( 3) 689 V( 4); V( 5); V( 6); V( 7) 690 V( 8); V( 9); V(10); V(11) 691 V(12); V(13); V(14); V(15) 692 V(16); V(17); V(18); V(19) 693 V(20); V(21); V(22); V(23) 694 V(24); V(25); V(26); V(27) 696 V(28); V(29); V(30)
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/openbmc/linux/arch/arm/boot/dts/samsung/ |
H A D | exynos3250-artik5.dtsi | 102 regulator-name = "VLDO1_1.0V"; 110 regulator-name = "VLDO2_1.2V"; 121 regulator-name = "VLDO3_1.8V"; 129 regulator-name = "VLDO4_1.8V"; 137 regulator-name = "VLDO5_1.0V"; 145 regulator-name = "VLDO6_1.0V"; 156 regulator-name = "VLDO7_1.8V"; 164 regulator-name = "VLDO8_3.0V"; 172 regulator-name = "VLDO9_1.2V"; 179 regulator-name = "VLDO10_1.0V"; [all …]
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H A D | s5pv210-aquila.dts | 44 regulator-name = "V_TF_2.8V"; 89 regulator-name = "VALIVE_1.1V"; 96 regulator-name = "VUSB+MIPI_1.1V"; 103 regulator-name = "VADC_3.3V"; 109 regulator-name = "VTF_2.8V"; 116 regulator-name = "VCC_3.3V"; 123 regulator-name = "VCC_3.0V"; 131 regulator-name = "VUSB+VDAC_3.3V"; 138 regulator-name = "VCC+VCAM_2.8V"; 145 regulator-name = "VPLL_1.1V"; [all …]
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/openbmc/linux/Documentation/fb/ |
H A D | viafb.modes | 29 # D: 25.175 MHz, H: 31.469 kHz, V: 59.94 Hz 32 # D: 24.823 MHz, H: 39.780 kHz, V: 60.00 Hz 53 # D: 31.50 MHz, H: 37.500 kHz, V: 75.00 Hz 74 # D: 36.000 MHz, H: 43.269 kHz, V: 85.00 Hz 95 # D: 43.163 MHz, H: 50.900 kHz, V: 100.00 Hz 116 # D: 52.406 MHz, H: 61.800 kHz, V: 120.00 Hz 137 # D: 26.880 MHz, H: 30.000 kHz, V: 60.24 Hz 158 # D: 29.500 MHz, H: 29.738 kHz, V: 60.00 Hz 179 # D: 32.668 MHz, H: 35.820 kHz, V: 60.00 Hz 200 # D: 40.00 MHz, H: 37.879 kHz, V: 60.32 Hz [all …]
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/openbmc/qemu/target/hexagon/mmvec/ |
H A D | macros.h | 309 #define fVSATDW(U, V) fVSATW(((((long long)U) << 32) | fZXTN(32, 64, V))) argument 310 #define fVASL_SATHI(U, V) fVSATW(((U) << 1) | ((V) >> 31)) argument 311 #define fVUADDSAT(WIDTH, U, V) \ argument 312 fVSATUN(WIDTH, fZXTN(WIDTH, 2 * WIDTH, U) + fZXTN(WIDTH, 2 * WIDTH, V)) 313 #define fVSADDSAT(WIDTH, U, V) \ argument 314 fVSATN(WIDTH, fSXTN(WIDTH, 2 * WIDTH, U) + fSXTN(WIDTH, 2 * WIDTH, V)) 315 #define fVUSUBSAT(WIDTH, U, V) \ argument 316 fVSATUN(WIDTH, fZXTN(WIDTH, 2 * WIDTH, U) - fZXTN(WIDTH, 2 * WIDTH, V)) 317 #define fVSSUBSAT(WIDTH, U, V) \ argument 318 fVSATN(WIDTH, fSXTN(WIDTH, 2 * WIDTH, U) - fSXTN(WIDTH, 2 * WIDTH, V)) [all …]
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/openbmc/qemu/target/i386/tcg/ |
H A D | decode-new.c.inc | 65 * The main difference is that the V, U and W types are extended to 73 * the V/U/H/W types to P/N/P/Q if there is no prefix, as well as changing 446 X86_OP_ENTRY3(MOVDQ, V,x, None,None, W,x, vex1), /* movdqa */ 447 X86_OP_ENTRY3(MOVDQ, V,x, None,None, W,x, vex4_unal), /* movdqu */ 457 X86_OP_ENTRY3(PSHUFD, V,x, W,x, I,b, vex4 avx2_256), 458 X86_OP_ENTRY3(PSHUFHW, V,x, W,x, I,b, vex4 avx2_256), 459 X86_OP_ENTRY3(PSHUFLW, V,x, W,x, I,b, vex4 avx2_256), 482 X86_OP_ENTRY3(EXTRQ_i, V,x, None,None, I,w, cpuid(SSE4A)), /* AMD extension */ 484 X86_OP_ENTRY3(INSERTQ_i, V,x, U,x, I,w, cpuid(SSE4A)), /* AMD extension */ 504 X86_OP_ENTRY3(MOVD_from, E,y, None,None, V,y, vex5), [all …]
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/openbmc/linux/Documentation/devicetree/bindings/sound/ |
H A D | cs35l32.txt | 25 3 = Boost voltage fixed at 5 V. 40 0 = 3.1V 41 1 = 3.2V 42 2 = 3.3V (Default) 43 3 = 3.4V 46 0 = 3.1V 47 1 = 3.2V 48 2 = 3.3V 49 3 = 3.4V (Default) 50 4 = 3.5V [all …]
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/openbmc/linux/drivers/comedi/drivers/tests/ |
H A D | ni_routes_test.c | 29 #define V(x) ((x) | 0x80) macro 118 [x1] = V(x1), [x2] = V(x2), [x3] = V(x3), [x4] = V(x4), \ 119 [x5] = V(x5), [x6] = V(x6), [x7] = V(x7), [x8] = V(x8), \ 120 [x9] = V(x9), 135 [B(NI_RGOUT0)] = {[B(rgout0_src0)] = V(0), 136 [B(rgout0_src1)] = V(1)}, 137 [B(NI_RTSI_BRD(0))] = {[B(brd0_src0)] = V(0), 138 [B(brd0_src1)] = V(1)}, 139 [B(NI_RTSI_BRD(1))] = {[B(brd1_src0)] = V(0), 140 [B(brd1_src1)] = V(1)}, [all …]
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