| /linux/arch/x86/crypto/ |
| A D | twofish-x86_64-asm_64.S | 39 #define R2 %rcx macro
226 encrypt_round(R0,R1,R2,R3,0);
227 encrypt_round(R2,R3,R0,R1,8);
228 encrypt_round(R0,R1,R2,R3,2*8);
229 encrypt_round(R2,R3,R0,R1,3*8);
230 encrypt_round(R0,R1,R2,R3,4*8);
231 encrypt_round(R2,R3,R0,R1,5*8);
232 encrypt_round(R0,R1,R2,R3,6*8);
233 encrypt_round(R2,R3,R0,R1,7*8);
234 encrypt_round(R0,R1,R2,R3,8*8);
[all …]
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| A D | twofish-i586-asm_32.S | 231 encrypt_round(R0,R1,R2,R3,0);
232 encrypt_round(R2,R3,R0,R1,8);
233 encrypt_round(R0,R1,R2,R3,2*8);
234 encrypt_round(R2,R3,R0,R1,3*8);
235 encrypt_round(R0,R1,R2,R3,4*8);
236 encrypt_round(R2,R3,R0,R1,5*8);
237 encrypt_round(R0,R1,R2,R3,6*8);
238 encrypt_round(R2,R3,R0,R1,7*8);
239 encrypt_round(R0,R1,R2,R3,8*8);
240 encrypt_round(R2,R3,R0,R1,9*8);
[all …]
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| A D | poly1305-x86_64-cryptogams.pl | 2264 vpermd $D2,$T2,$R2
2402 vpermd $R2,$M0,$R2
2413 vpslld \$2,$R2,$S2
2598 vpsrlq \$32,$R2,$R2
3102 vmovdqa $H2,$R2
3170 vpunpcklqdq $R2,$H2,$R2
3188 vinserti128 \$1,%x#$R2,$H2,$R2
3192 vpermq \$0b11011000,$R2,$R2
3211 vpbroadcastq %x#$R2,$R2
3225 vpsrldq \$8,$R2,$R2
[all …]
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| /linux/arch/arm/crypto/ |
| A D | poly1305-armv4.pl | 535 vdup.32 $R2,r4
570 vmlal.u32 $D4,$R2,${R2}[1]
672 vtrn.32 $R2,$D2#lo
681 vadd.i32 $S2,$S2,$R2
704 vmov $R2,$D2#lo
1082 vmlal.u32 $D3,$H1#hi,$R2
1086 vmlal.u32 $D4,$H2#hi,$R2
1088 vmlal.u32 $D2,$H0#hi,$R2
1130 vmlal.u32 $D3,$H1#lo,$R2
1134 vmlal.u32 $D4,$H2#lo,$R2
[all …]
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| /linux/lib/ |
| A D | test_bpf.c | 41 #define R2 BPF_REG_2 macro
3833 BPF_ALU64_REG(BPF_ADD, R2, R2),
3979 BPF_ALU32_REG(BPF_ADD, R2, R2),
4221 BPF_ALU64_REG(BPF_XOR, R2, R2),
4224 BPF_ALU64_REG(BPF_SUB, R2, R2),
9735 BPF_LD_IMM64(R2, 2),
9750 BPF_LD_IMM64(R2, 1),
9766 BPF_LD_IMM64(R2, 2),
9781 BPF_LD_IMM64(R2, 1),
11294 BPF_ALU64_IMM(BPF_MOV, R2, R2), \
[all …]
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| /linux/arch/parisc/kernel/ |
| A D | unaligned.c | 108 #define R2(i) (((i)>>16)&0x1f) macro
493 newbase += (R2(regs->iir)?regs->gr[R2(regs->iir)]:0)<<shift; in handle_unaligned()
495 newbase += (R2(regs->iir)?regs->gr[R2(regs->iir)]:0); in handle_unaligned()
542 ret = emulate_sth(regs, R2(regs->iir)); in handle_unaligned()
547 ret = emulate_stw(regs, R2(regs->iir),0); in handle_unaligned()
560 ret = emulate_std(regs, R2(regs->iir),0); in handle_unaligned()
604 ret = emulate_ldd(regs,R2(regs->iir),1); in handle_unaligned()
608 ret = emulate_std(regs, R2(regs->iir),1); in handle_unaligned()
611 ret = emulate_ldd(regs, R2(regs->iir),0); in handle_unaligned()
639 ret = emulate_ldh(regs, R2(regs->iir)); in handle_unaligned()
[all …]
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| /linux/arch/hexagon/kernel/ |
| A D | vm_entry.S | 61 R2.H = #HI(_THREAD_SIZE); } \
64 R2.L = #LO(_THREAD_SIZE); } \
67 R2 = neg(R2); } \
70 R2 = and(R0,R2); } \
72 THREADINFO_REG = R2; } \
75 R2 = #-1; } \
76 { memw(R0 + #_PT_SYSCALL_NR) = R2; \
112 R2 = #-1; } \
113 { memw(R0 + #_PT_SYSCALL_NR) = R2; \
|
| /linux/arch/arm64/crypto/ |
| A D | poly1305-armv8.pl | 573 umull $ACC2,$IN23_0,${R2}[2]
587 umlal $ACC3,$IN23_1,${R2}[2]
596 umlal $ACC4,$IN23_2,${R2}[2]
640 umlal $ACC4,$IN01_2,${R2}[0]
654 umlal $ACC2,$IN01_0,${R2}[0]
759 umull2 $ACC4,$IN23_2,${R2}
765 umlal2 $ACC2,$IN23_0,${R2}
772 umlal2 $ACC3,$IN23_1,${R2}
798 umlal $ACC4,$IN01_2,${R2}
807 umlal $ACC2,$IN01_0,${R2}
[all …]
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| /linux/Documentation/devicetree/bindings/regulator/ |
| A D | ltc3676.txt | 18 values R1 and R2 of the feedback voltage divider in ohms.
22 0.4125 * (1 + R1/R2) V and 0.8 * (1 + R1/R2) V.
25 0.725 * (1 + R1/R2) V. The ldo3 regulator is fixed to 1.8 V. The ldo1 standby
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| A D | ltc3589.txt | 18 values R1 and R2 of the feedback voltage divider in ohms.
22 0.3625 * (1 + R1/R2) V and 0.75 * (1 + R1/R2) V. Regulators bb-out and ldo1
23 have a fixed 0.8 V reference and thus output 0.8 * (1 + R1/R2) V. The ldo3
|
| A D | rohm,bd71837-regulator.yaml | 124 # +-------+--R2----+
132 # Vout_o = Vo - (Vpu - Vo)*R2/R1
133 # Linear_step = step_orig*(R1+R2)/R1
139 # R1 and R2 are resistor values.
154 the used R2 resistor.
|
| A D | rohm,bd71847-regulator.yaml | 119 # +-------+--R2----+
127 # Vout_o = Vo - (Vpu - Vo)*R2/R1
128 # Linear_step = step_orig*(R1+R2)/R1
134 # R1 and R2 are resistor values.
149 the used R2 resistor.
|
| /linux/arch/sparc/net/ |
| A D | bpf_jit_comp_32.c | 261 #define emit_cmp(R1, R2) \ argument
262 *prog++ = (SUBCC | RS1(R1) | RS2(R2) | RD(G0))
267 #define emit_btst(R1, R2) \ argument
268 *prog++ = (ANDCC | RS1(R1) | RS2(R2) | RD(G0))
273 #define emit_sub(R1, R2, R3) \ argument
274 *prog++ = (SUB | RS1(R1) | RS2(R2) | RD(R3))
279 #define emit_add(R1, R2, R3) \ argument
280 *prog++ = (ADD | RS1(R1) | RS2(R2) | RD(R3))
285 #define emit_and(R1, R2, R3) \ argument
286 *prog++ = (AND | RS1(R1) | RS2(R2) | RD(R3))
|
| /linux/Documentation/hwmon/ |
| A D | ltc4260.rst | 45 real voltage by multiplying the reported value with (R1+R2)/R2, where R1 is the
46 value of the divider resistor against the measured voltage and R2 is the value
|
| A D | ltc4261.rst | 45 real voltage by multiplying the reported value with (R1+R2)/R2, where R1 is the
46 value of the divider resistor against the measured voltage and R2 is the value
|
| A D | ltc2945.rst | 45 real voltage by multiplying the reported value with (R1+R2)/R2, where R1 is the
46 value of the divider resistor against the measured voltage and R2 is the value
|
| /linux/arch/arm/boot/dts/ |
| A D | imx6qdl-gw552x.dtsi | 284 /* VDD_SOC (1+R1/R2 = 1.635) */
295 /* VDD_1P8 (1+R1/R2 = 2.505): ENET-PHY */
306 /* VDD_ARM (1+R1/R2 = 1.635) */
317 /* VDD_DDR (1+R1/R2 = 2.105) */
328 /* VDD_2P5 (1+R1/R2 = 3.435): PCIe/ENET-PHY */
338 /* VDD_HIGH (1+R1/R2 = 4.17) */
|
| A D | ste-hrefv60plus-tvk.dts | 5 * Device Tree for the HREF version 60 or later with the TVK1281618 R2 UIB
14 model = "ST-Ericsson HREF (v60+) and TVK1281618 R2 UIB";
|
| A D | imx6qdl-gw51xx.dtsi | 294 /* VDD_SOC (1+R1/R2 = 1.635) */
305 /* VDD_1P8 (1+R1/R2 = 2.505): GPS/VideoIn/ENET-PHY */
316 /* VDD_ARM (1+R1/R2 = 1.635) */
327 /* VDD_DDR (1+R1/R2 = 2.105) */
338 /* VDD_2P5 (1+R1/R2 = 3.435): PCIe/ENET-PHY */
348 /* VDD_HIGH (1+R1/R2 = 4.17) */
|
| /linux/tools/perf/arch/arm/tests/ |
| A D | regs_load.S | 6 #define R2 0x10 macro
43 str r2, [r0, #R2]
|
| /linux/tools/testing/selftests/net/ |
| A D | pmtu.sh | 993 mtu "${ns_a}" veth_A-R2 2000
996 mtu "${ns_b}" veth_B-R2 1500
1031 mtu "${ns_b}" veth_B-R2 400
1037 mtu "${ns_a}" veth_A-R2 500
1043 mtu "${ns_a}" veth_A-R2 1500
1907 mtu "${ns_a}" veth_A-R2 2000
1910 mtu "${ns_b}" veth_B-R2 1500
1961 mtu "${ns_a}" veth_A-R2 2000
1964 mtu "${ns_b}" veth_B-R2 1500
2022 mtu "${ns_a}" veth_A-R2 2000
[all …]
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| /linux/tools/perf/arch/powerpc/tests/ |
| A D | regs_load.S | 7 #define R2 2 * 8 macro
46 std 2, R2(3)
|
| /linux/arch/mips/loongson64/ |
| A D | Platform | 10 # as MIPS64 R2; older versions as just R1. This leaves the possibility open
11 # that GCC might generate R2 code for -march=loongson3a which then is rejected
|
| /linux/arch/sh/boards/ |
| A D | Kconfig | 336 bool "Magic Panel R2"
341 Select Magic Panel R2 if configuring for Magic Panel R2.
388 menu "Magic Panel R2 options"
391 int "Magic Panel R2 Version"
394 Set the version of the Magic Panel R2
|
| /linux/arch/nds32/lib/ |
| A D | copy_template.S | 14 sub $r2, $r2, $r4 ! update $R2
29 sub $r2, $r2, $r3 ! update $R2
|