| /openbmc/linux/drivers/ata/pata_parport/ |
| H A D | on26.c | 28 #define P1 \ macro
51 w0(1); P1; w0(r); P2; w0(0); P1; in on26_read_regr()
57 w0(1); P1; w0(r); P2; w0(0); P1; in on26_read_regr()
79 w0(1); P1; w0(r); P2; w0(0); P1; in on26_write_regr()
113 w0(2); P1; w0(8); P2; in on26_connect()
114 w0(2); P1; w0(x); P2; in on26_connect()
122 w0(4); P1; w0(4); P1; in on26_disconnect()
156 w0(2); P1; w0(0); P2; in on26_test_port()
157 w0(3); P1; w0(0); P2; in on26_test_port()
158 w0(2); P1; w0(8); P2; udelay(100); in on26_test_port()
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| H A D | dstr.c | 29 #define P1 w2(5);w2(0xd);w2(5);w2(4); macro
45 w0(0x81); P1; in dstr_read_regr()
50 P2; w0(r); P1; in dstr_read_regr()
73 w0(0x81); P1; in dstr_write_regr()
78 P2; w0(r); P1; in dstr_write_regr()
119 w0(0x81); P1; in dstr_read_block()
124 P2; w0(0x82); P1; P3; w0(0x20); P1; in dstr_read_block()
168 w0(0x81); P1; in dstr_write_block()
173 P2; w0(0x82); P1; P3; w0(0x20); P1; in dstr_write_block()
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| H A D | comm.c | 27 #define P1 w2(5);w2(0xd);w2(0xd);w2(5);w2(4); macro
44 w0(r); P1; w0(0); in comm_read_regr()
49 w0(r+0x20); P1; in comm_read_regr()
71 w0(r); P1; w0(val); P2; in comm_write_regr()
105 w0(0x48); P1; in comm_read_block()
113 w0(0x68); P1; w0(0); in comm_read_block()
150 w0(0x68); P1; in comm_write_block()
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| /openbmc/phosphor-logging/test/openpower-pels/ |
| H A D | device_callouts_test.cpp | 60 "LocationCode": "P1-C19",
71 "LocationCode": "P1-C19",
95 "LocationCode": "P1-C19",
106 "LocationCode": "P1-C19",
112 "LocationCode": "P1",
127 "LocationCode": "P1-C19",
138 "LocationCode": "P1-C19",
157 "LocationCode": "P1-C19",
168 "LocationCode": "P1-C25",
173 "LocationCode": "P1",
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| H A D | registry_test.cpp | 474 "LocCode": "P1-C1" in TEST_F()
478 "LocCode": "P1" in TEST_F()
571 "LocCode": "P1-C1" in TEST_F()
575 "LocCode": "P1", in TEST_F()
645 "LocCode": "P1-C5" in TEST_F()
649 "LocCode": "P1-C6", in TEST_F()
679 "LocCode": "P1-C6", in TEST_F()
777 "LocCode": "P1-C1" in TEST_F()
809 "LocCode": "P1-C1" in TEST_F()
813 "LocCode": "P1" in TEST_F()
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| /openbmc/u-boot/arch/arm/dts/ |
| H A D | exynos5250-smdk5250.dts | 184 regulator-name = "P1.0V_LDO_OUT1";
191 regulator-name = "P1.2V_LDO_OUT2";
198 regulator-name = "P1.8V_LDO_OUT3";
211 regulator-name = "P1.8V_LDO_OUT5";
217 regulator-name = "P1.1V_LDO_OUT6";
224 regulator-name = "P1.1V_LDO_OUT7";
231 regulator-name = "P1.0V_LDO_OUT8";
237 regulator-name = "P1.8V_LDO_OUT10";
243 regulator-name = "P1.8V_LDO_OUT11";
255 regulator-name = "P1.8V_LDO_OUT13";
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| H A D | exynos5250-snow.dts | 414 regulator-name = "P1.0V_LDO_OUT1";
421 regulator-name = "P1.8V_LDO_OUT2";
428 regulator-name = "P1.8V_LDO_OUT3";
435 regulator-name = "P1.1V_LDO_OUT7";
442 regulator-name = "P1.0V_LDO_OUT8";
449 regulator-name = "P1.8V_LDO_OUT10";
463 regulator-name = "P1.8V_LDO_OUT14";
470 regulator-name = "P1.0V_LDO_OUT15";
477 regulator-name = "P1.8V_LDO_OUT16";
522 regulator-name = "P1.8V_BUCK_OUT5";
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| H A D | exynos5250-spring.dts | 284 regulator-name = "P1.0V_LDO_OUT4";
292 regulator-name = "P1.8V_LDO_OUT5";
308 regulator-name = "P1.1V_LDO_OUT7";
316 regulator-name = "P1.0V_LDO_OUT8";
324 regulator-name = "P1.8V_LDO_OUT10";
332 regulator-name = "P1.8V_LDO_OUT11";
348 regulator-name = "P1.8V_LDO_OUT13";
356 regulator-name = "P1.8V_LDO_OUT14";
364 regulator-name = "P1.0V_LDO_OUT15";
372 regulator-name = "P1.8V_LDO_OUT16";
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| /openbmc/linux/arch/arm/boot/dts/ti/omap/ |
| H A D | am335x-pocketbeagle.dts | 66 "P1.08 [SPI0_CLK]",
67 "P1.10 [SPI0_MISO]",
68 "P1.12 [SPI0_MOSI]",
69 "P1.06 [SPI0_CS]",
76 "P1.26 [I2C2_SDA]",
77 "P1.28 [I2C2_SCL]",
84 "P1.20 [PRU0.16]",
90 "P1.34",
110 "P1.32 [UART0_RX]",
111 "P1.30 [UART0_TX]",
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| /openbmc/linux/drivers/gpu/drm/nouveau/nvkm/subdev/clk/ |
| H A D | nv50.c | 381 int N, M, P1, P2; in nv50_clk_calc() local
400 freq = calc_div(core, vdec, &P1); in nv50_clk_calc()
413 divsv |= P1 << 8; in nv50_clk_calc()
434 calc_div(freq, dom6, &P1); in nv50_clk_calc()
437 divsv |= P1; in nv50_clk_calc()
460 freq = calc_pll(clk, 0x4028, core, &N, &M, &P1); in nv50_clk_calc()
465 0x80000000 | (P1 << 19) | (P1 << 16)); in nv50_clk_calc()
474 if (P1-- && shader == (core << 1)) { in nv50_clk_calc()
475 clk_mask(hwsq, spll[0], 0xc03f0100, (P1 << 19) | (P1 << 16)); in nv50_clk_calc()
478 freq = calc_pll(clk, 0x4020, shader, &N, &M, &P1); in nv50_clk_calc()
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| H A D | mcp77.c | 208 int N, M, P1, P2 = 0; in mcp77_clk_calc() local
216 clock = calc_pll(clk, 0x4028, (core << 1), &N, &M, &P1); in mcp77_clk_calc()
225 if(P1 > 2) { in mcp77_clk_calc()
226 P2 = P1 - 2; in mcp77_clk_calc()
227 P1 = 2; in mcp77_clk_calc()
234 clk->cpost = (1 << P1) << 16; in mcp77_clk_calc()
242 clock = calc_pll(clk, 0x4020, shader, &N, &M, &P1); in mcp77_clk_calc()
254 clk->sctrl = P1 << 16; in mcp77_clk_calc()
260 clock = calc_P(500000, vdec, &P1); in mcp77_clk_calc()
266 clk->vdiv = P1 << 16; in mcp77_clk_calc()
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| /openbmc/linux/arch/arm/boot/dts/samsung/ |
| H A D | exynos5250-smdk5250.dts | 150 regulator-name = "P1.0V_LDO_OUT1";
157 regulator-name = "P1.2V_LDO_OUT2";
164 regulator-name = "P1.8V_LDO_OUT3";
177 regulator-name = "P1.8V_LDO_OUT5";
183 regulator-name = "P1.1V_LDO_OUT6";
190 regulator-name = "P1.1V_LDO_OUT7";
197 regulator-name = "P1.0V_LDO_OUT8";
203 regulator-name = "P1.8V_LDO_OUT10";
210 regulator-name = "P1.8V_LDO_OUT11";
222 regulator-name = "P1.8V_LDO_OUT13";
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| H A D | exynos5250-spring.dts | 161 regulator-name = "P1.0V_LDO_OUT4";
169 regulator-name = "P1.0V_LDO_OUT5";
185 regulator-name = "P1.1V_LDO_OUT7";
193 regulator-name = "P1.0V_LDO_OUT8";
201 regulator-name = "P1.8V_LDO_OUT10";
209 regulator-name = "P1.8V_LDO_OUT11";
225 regulator-name = "P1.8V_LDO_OUT13";
233 regulator-name = "P1.8V_LDO_OUT14";
241 regulator-name = "P1.0V_LDO_OUT15";
249 regulator-name = "P1.8V_LDO_OUT16";
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| H A D | exynos5250-snow-common.dtsi | 303 regulator-name = "P1.0V_LDO_OUT1";
310 regulator-name = "P1.8V_LDO_OUT2";
317 regulator-name = "P1.8V_LDO_OUT3";
324 regulator-name = "P1.1V_LDO_OUT7";
331 regulator-name = "P1.0V_LDO_OUT8";
338 regulator-name = "P1.8V_LDO_OUT10";
352 regulator-name = "P1.8V_LDO_OUT14";
359 regulator-name = "P1.0V_LDO_OUT15";
366 regulator-name = "P1.8V_LDO_OUT16";
405 regulator-name = "P1.8V_BUCK_OUT5";
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| /openbmc/linux/arch/m68k/fpsp040/ |
| H A D | stan.S | 33 | U = r + r*s*(P1 + s*(P2 + s*P3)), and
39 | U = r + r*s*(P1 + s*(P2 + s*P3)), and
230 faddx TANP1,%fp2 | ...P1+S(P2+SP3)
233 fmulx %fp1,%fp2 | ...S(P1+S(P2+SP3))
236 fmulx %fp0,%fp2 | ...RS(P1+S(P2+SP3))
241 faddx %fp2,%fp0 | ...R+RS(P1+S(P2+SP3))
268 faddx TANP1,%fp2 | ...P1+S(P2+SP3)
271 fmulx %fp0,%fp2 | ...S(P1+S(P2+SP3))
274 fmulx %fp1,%fp2 | ...RS(P1+S(P2+SP3))
279 faddx %fp2,%fp1 | ...R+RS(P1+S(P2+SP3))
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| /openbmc/linux/tools/memory-model/litmus-tests/ |
| H A D | Z6.0+pooncerelease+poacquirerelease+fencembonceonce.litmus | 8 * if there is more than one. Of the three processes, only P1() reads from
9 * P0's write, which means that there are two non-rf links: P1() to P2()
25 P1(int *y, int *z)
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| H A D | S+poonceonces.litmus | 7 * first store against P1()'s final load, if the smp_store_release()
20 P1(int *x, int *y)
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| H A D | ISA2+pooncelock+pooncelock+pombonce.litmus | 7 * (in P0() and P1()) is visible to external process P2().
20 P1(int *y, int *z, spinlock_t *mylock)
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| /openbmc/openbmc/meta-openembedded/meta-networking/recipes-connectivity/dhcp/ |
| H A D | dhcp-relay_4.4.3p1.bb | 13 SRC_URI = "https://downloads.isc.org/isc/dhcp/4.4.3-P1/dhcp-4.4.3-P1.tar.gz \
27 S = "${WORKDIR}/dhcp-4.4.3-P1"
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| /openbmc/linux/drivers/ata/ |
| H A D | ata_piix.c | 107 P1 = 1, /* port 1 */ enumerator
344 { P0, NA, P1, NA }, /* 000b */
345 { P1, NA, P0, NA }, /* 001b */
348 { P0, P1, IDE, IDE }, /* 100b */
349 { P1, P0, IDE, IDE }, /* 101b */
350 { IDE, IDE, P0, P1 }, /* 110b */
351 { IDE, IDE, P1, P0 }, /* 111b */
360 { P0, P2, P1, P3 }, /* 00b */
361 { IDE, IDE, P1, P3 }, /* 01b */
378 { IDE, IDE, P1, P3 }, /* 01b */
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| /openbmc/qemu/docs/specs/ |
| H A D | ppc-spapr-numa.rst | 28 Mem M1 ---- Proc P1 |
38 * P1: {MOD1, S1, C1, P1}
76 means that the second would be 20 and the third level 40. For the P1 and
83 * P1: associativity{MOD1, S1, C1, P1}
95 P1 and P2 have the same third NUMA level, MOD1: Distance between them = 40
105 * P1: associativity{MOD1, S1, C1, P1}
113 P1 and P2 does not have a common performance boundary. Since this is a one level
125 * P1: associativity{MOD1, S1, C1, P1}
133 P1 and P2 belongs to the same first order boundary. The distance between then
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| /openbmc/u-boot/board/freescale/ls2080aqds/ |
| H A D | README | 169 DPMAC7 -> PHY4-P1
177 DPMAC15 -> PHY4-P1
202 DPMAC3 -> PHY1-P1
206 DPMAC7 -> PHY2-P1
209 DPMAC10 -> PHY3-P1
213 DPMAC14 -> PHY4-P1
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| /openbmc/phosphor-logging/extensions/openpower-pels/registry/ |
| H A D | README.md | 364 "LocCode": "P1-C1"
368 "LocCode": "P1"
386 The above example shows that on system `system1`, the FRU at location P1-C1 will
387 be called out with a priority of high, and the FRU at P1 with a priority of low.
401 "LocCode": "P1-C1"
405 "LocCode": "P1"
436 The above example shows that on `system1`, the FRU at location P1-C1, P1,
438 location P1-C1, P1 will be called out. On every other system, the maintenance
458 "LocCode": "P1-C5"
473 "LocCode": "P1-C6"
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| /openbmc/linux/tools/memory-model/Documentation/ |
| H A D | explanation.txt | 122 P1()
133 CPU and P1() represents the read() routine running on another. The
135 Thus, P0 stores the data in buf and then sets flag. Meanwhile, P1
154 A memory model will predict what values P1 might obtain for its loads
163 instance, P1 might run entirely before P0 begins, in which case r1 and
164 r2 will both be 0 at the end. Or P0 might run entirely before P1
168 routines run concurrently. One possibility is that P1 runs after P0's
170 will again both be 0. (If P1 had been designed to read buf
197 Since r1 = 1, P0 must store 1 to flag before P1 loads 1 from
200 P1 loads from flag before loading from buf, since CPUs execute
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| H A D | litmus-tests.txt | 78 11 P1(int *x, int *y)
114 The name of the first process is "P0" and that of the second "P1".
118 for example, a .litmus file matching "^P1(" but not matching "^P2("
123 names are significant. The fact that both P0() and P1() have a formal
126 and P1() mean that both processes are working with two shared global
130 P0() has no local variables, but P1() has two of them named "r0" and "r1".
151 The P1() process declares two local variables on lines 13 and 14.
155 variable "r1". Both "x" and "y" are in P1()'s parameter list, so both
175 flag ("y") set but the buffer ("x") as not yet filled in, that is, if P1()
221 both of P1()'s loads returned the value "0". As expected, given the
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