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/openbmc/qemu/tests/tcg/i386/
H A D	float_convd.conf	2 from single: f32(nan:0x7fe00000) 3 to single: f64(nan:0x007ffc000000000000) (OK) 8 from single: f32(-nan:0xffc00000) 9 to single: f64(-nan:0x00fff8000000000000) (OK) 14 from single: f32(-inf:0xff800000) 15 to single: f64(-inf:0x00fff0000000000000) (OK) 20 from single: f32(-inf:0xff800000) 21 to single: f64(-inf:0x00fff0000000000000) (OVERFLOW INEXACT ) 26 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 27 to single: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (OK) [all …]
H A D	float_convs.ref	2 from single: f32(-nan:0xffe00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/qemu/tests/tcg/arm/
H A D	fcvt.ref	3 Converting single-precision to half-precision 4 00 SINGLE: -nan / 0xffa00000 (0 => OK) 6 01 SINGLE: -nan / 0xffc00000 (0 => OK) 8 02 SINGLE: -inf / 0xff800000 (0 => OK) 10 03 SINGLE: -3.40282346638528859812e+38 / 0xff7fffff (0 => OK) 12 04 SINGLE: -1.11100004769645909791e+31 / 0xf30c3a59 (0 => OK) 14 05 SINGLE: -1.11100003258488635273e+30 / 0xf1605d5b (0 => OK) 16 06 SINGLE: -1.08700982243137289629e-12 / 0xab98fba8 (0 => OK) 18 07 SINGLE: -1.78051176151664730511e-20 / 0x9ea82a22 (0 => OK) 20 08 SINGLE: -1.17549435082228750797e-38 / 0x80800000 (0 => OK) [all …]
H A D	float_convd.ref	3 to single: f32(nan:0x7fe00000) (INVALID) 9 to single: f32(-nan:0xffc00000) (OK) 15 to single: f32(-inf:0xff800000) (OK) 21 to single: f32(-inf:0xff800000) (OVERFLOW INEXACT ) 27 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 33 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 39 to single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) (INEXACT ) 45 to single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) (INEXACT ) 51 to single: f32(-0x1.00000000000000000000p+1:0xc0000000) (OK) 57 to single: f32(-0x1.00000000000000000000p+0:0xbf800000) (OK) [all …]
H A D	float_convs.ref	2 from single: f32(-nan:0xffa00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/qemu/tests/tcg/aarch64/
H A D	fcvt.ref	3 Converting single-precision to half-precision 4 00 SINGLE: -nan / 0xffa00000 (0 => OK) 6 01 SINGLE: -nan / 0xffc00000 (0 => OK) 8 02 SINGLE: -inf / 0xff800000 (0 => OK) 10 03 SINGLE: -3.40282346638528859812e+38 / 0xff7fffff (0 => OK) 12 04 SINGLE: -1.11100004769645909791e+31 / 0xf30c3a59 (0 => OK) 14 05 SINGLE: -1.11100003258488635273e+30 / 0xf1605d5b (0 => OK) 16 06 SINGLE: -1.08700982243137289629e-12 / 0xab98fba8 (0 => OK) 18 07 SINGLE: -1.78051176151664730511e-20 / 0x9ea82a22 (0 => OK) 20 08 SINGLE: -1.17549435082228750797e-38 / 0x80800000 (0 => OK) [all …]
H A D	float_convd.ref	3 to single: f32(nan:0x7fe00000) (INVALID) 9 to single: f32(-nan:0xffc00000) (OK) 15 to single: f32(-inf:0xff800000) (OK) 21 to single: f32(-inf:0xff800000) (OVERFLOW INEXACT ) 27 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 33 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 39 to single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) (INEXACT ) 45 to single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) (INEXACT ) 51 to single: f32(-0x1.00000000000000000000p+1:0xc0000000) (OK) 57 to single: f32(-0x1.00000000000000000000p+0:0xbf800000) (OK) [all …]
H A D	float_convs.ref	2 from single: f32(-nan:0xffa00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/u-boot/arch/arm/dts/
H A D	poplar-pinctrl.dtsi	`20 pinctrl-single,pins = < 31 pinctrl-single,bias-pulldown = < 34 pinctrl-single,bias-pullup = < 37 pinctrl-single,slew-rate = < 40 pinctrl-single,drive-strength = < 46 pinctrl-single,pins = < 49 pinctrl-single,bias-pulldown = < 52 pinctrl-single,bias-pullup = < 55 pinctrl-single,slew-rate = < 58 pinctrl-single,drive-strength = < [all …]`
H A D	k3-am654-base-board-u-boot.dtsi	`22 compatible = "pinctrl-single"; 25 pinctrl-single,register-width = <32>; 26 pinctrl-single,function-mask = <0xffffffff>; 30 compatible = "pinctrl-single"; 33 pinctrl-single,register-width = <32>; 34 pinctrl-single,function-mask = <0xffffffff>; 60 compatible = "pinctrl-single"; 63 pinctrl-single,register-width = <32>; 64 pinctrl-single,function-mask = <0xffffffff>; 99 pinctrl-single,pins = < [all …]`
H A D	am57xx-sbc-am57x.dts	`2 * Support for CompuLab SBC-AM57x single board computer 27 pinctrl-single,pins = < 34 pinctrl-single,pins = < 47 pinctrl-single,pins = < 53 pinctrl-single,pins = < 60 pinctrl-single,pins = < 66 pinctrl-single,pins = < 73 pinctrl-single,pins = <`
/openbmc/qemu/tests/tcg/x86_64/
H A D	float_convd.ref	3 to single: f32(nan:0x7fe00000) (INVALID) 9 to single: f32(-nan:0xffc00000) (OK) 15 to single: f32(-inf:0xff800000) (OK) 21 to single: f32(-inf:0xff800000) (OVERFLOW INEXACT ) 27 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 33 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 39 to single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) (INEXACT ) 45 to single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) (INEXACT ) 51 to single: f32(-0x1.00000000000000000000p+1:0xc0000000) (OK) 57 to single: f32(-0x1.00000000000000000000p+0:0xbf800000) (OK) [all …]
H A D	float_convs.ref	2 from single: f32(-nan:0xffa00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/qemu/tests/tcg/hexagon/
H A D	float_convd.ref	3 to single: f32(-nan:0xffffffff) (INVALID) 9 to single: f32(-nan:0xffffffff) (OK) 15 to single: f32(-inf:0xff800000) (OK) 21 to single: f32(-inf:0xff800000) (OVERFLOW INEXACT ) 27 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 33 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 39 to single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) (INEXACT ) 45 to single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) (INEXACT ) 51 to single: f32(-0x1.00000000000000000000p+1:0xc0000000) (OK) 57 to single: f32(-0x1.00000000000000000000p+0:0xbf800000) (OK) [all …]
H A D	float_convs.ref	2 from single: f32(-nan:0xffa00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/qemu/tests/tcg/loongarch64/
H A D	float_convd.ref	3 to single: f32(nan:0x7fe00000) (INVALID) 9 to single: f32(-nan:0xffc00000) (OK) 15 to single: f32(-inf:0xff800000) (OK) 21 to single: f32(-inf:0xff800000) (OVERFLOW INEXACT ) 27 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 33 to single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) (OK) 39 to single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) (INEXACT ) 45 to single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) (INEXACT ) 51 to single: f32(-0x1.00000000000000000000p+1:0xc0000000) (OK) 57 to single: f32(-0x1.00000000000000000000p+0:0xbf800000) (OK) [all …]
H A D	float_convs.ref	2 from single: f32(-nan:0xffa00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/qemu/tests/tcg/ppc64le/
H A D	float_convs.ref	2 from single: f32(-nan:0xffa00000) 8 from single: f32(-nan:0xffc00000) 14 from single: f32(-inf:0xff800000) 20 from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff) 26 from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) 32 from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) 38 from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8) 44 from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22) 50 from single: f32(-0x1.00000000000000000000p-126:0x80800000) 56 from single: f32(0x0.00000000000000000000p+0:0000000000) [all …]
/openbmc/u-boot/doc/
H A D	README.mpc83xx.ddrecc	`9 we'll be injecting: single/multiple bit etc.) 34 Injecting Single-Bit Errors 51 Memory Single-Bit Error Management (0..255): 52 Single-Bit Error Threshold: 255 53 Single Bit Error Counter: 16 58 Single-Bit Error: 0 61 16 errors were generated, Single-Bit Error flag was not set as Single Bit Error 62 Counter did not reach Single-Bit Error Threshold. 99 Single-Bit Error: 0 119 Test Single-Bit Error Counter and Threshold [all …]`
/openbmc/openbmc-test-automation/lib/
H A D	escape.tcl	8 # Do a bash-style escape of all single quotes in the buffer and return the result. 10 …# In bash, if you wish to have a single quote (i.e. apostrophe) inside single quotes, you must esc… 23 # buffer The string whose single quotes are to be escaped. 33 # Convert a single-quoted string to a curly brace-quoted string and return the result. 35 # This procedure can help in converting bash expressions, which are quoted with single quotes, to 37 # preserve a bash single quote escape sequence: '\'' 59 # In a bash string "'\''" is an escaped quote which we wish to convert to a single quote. 95 # Convert a curly brace-quoted string to a single-quoted string and return the result. 98 …# bash expressions which are quoted with single quotes. This procedure will first convert single … 99 # the bash escaped single quote sequence: '\'' [all …]
/openbmc/u-boot/drivers/sysreset/
H A D	sysreset_mpc83xx.h	`72 "Single-beat or Burst write", 80 "Single-beat or Burst read", 81 "Single-beat or Burst read", 88 "Single-beat write", 90 "ecowx - Illegal single-beat write", 96 "Single-beat or Burst read", 98 "eciwx - Illegal single-beat read",`
/openbmc/qemu/linux-user/arm/nwfpe/
H A D	fpopcode.c	`52 const_float32(0x00000000), /* single 0.0 / 53 const_float32(0x3f800000), / single 1.0 / 54 const_float32(0x40000000), / single 2.0 / 55 const_float32(0x40400000), / single 3.0 / 56 const_float32(0x40800000), / single 4.0 / 57 const_float32(0x40a00000), / single 5.0 / 58 const_float32(0x3f000000), / single 0.5 / 59 const_float32(0x41200000) / single 10.0 */`
/openbmc/phosphor-power/phosphor-power-sequencer/docs/
H A D	multiple_chassis.md	12 For the `phosphor-power-sequencer` application, the term "single chassis system" 17 ## Differences between single and multiple chassis systems 21 In a single chassis system, the system and chassis power state are identical. 32 If a single chassis system experiences a power good (pgood) fault, the system is 43 If a single chassis system that was powered on experiences a brownout, the 54 If a single chassis system that was powered on experiences a blackout, the
/openbmc/u-boot/drivers/adc/
H A D	sandbox.c	16 * @conversion_mode - conversion mode: single or multi-channel 17 * @active_channel - active channel number, valid for single channel mode 31 /* Set single-channel mode / in sandbox_adc_start_channel() 45 / Set single-channel mode / in sandbox_adc_start_channels() 60 / For single-channel conversion mode, check if channel was selected / in sandbox_adc_channel_data() 82 / Return error for single-channel conversion mode / in sandbox_adc_channels_data() 84 pr_err("ADC in single-channel mode!"); in sandbox_adc_channels_data() 124 / Set single-channel mode */ in sandbox_adc_probe()
/openbmc/qemu/include/exec/
H A D	memop.h	77 * MO_ATOM_IFALIGN: the operation must be single-copy atomic if it 81 * for convenience, with single-copy atomicity on each half if 84 * MO_ATOM_WITHIN16: the operation is single-copy atomic, even if it 88 * MO_ATOM_WITHIN16_PAIR: the entire operation is single-copy atomic, 91 * Depending on alignment, one or both will be single-copy atomic. 93 * MO_ATOM_SUBALIGN: the operation is single-copy atomic by parts 96 * single-copy atomic; otherwise, if it is accessed at 0 mod 4 97 * then each 4-byte subobject is single-copy atomic; otherwise 99 * are single-copy atomic. 103 * Note the default (i.e. 0) value is single-copy atomic to the

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