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Searched +full:5 +full:kg (Results 1 – 25 of 59) sorted by relevance

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/freebsd/usr.bin/units/
H A D	definitions.units	`5 kg !b! 42 semi- .5 43 demi- .5 44 hemi- .5 45 half- .5 92 bigG 6.67428e-11 m3/kg/s2 99 mercury 1.3332239e+5 kg/m2-sec2 107 electronmass 9.1093821545-31 kg 108 protonmass 1.6726217129-27 kg 109 neutronmass 1.6749272928-27 kg [all …]`
H A D	units.1	`322 .It Sy Example 5 : No Viewing units and conversions of the default units file 348 .Li You want : Ic fathoms kg^2 / day 350 2.7777778e-11 kg m^2 / sec^3 351 2.1166667e-05 kg^2 m / sec`
/freebsd/sys/contrib/device-tree/Bindings/iio/pressure/
H A D	honeywell,hsc030pa.yaml	`52 1 - B, 5% to 95% of 2^14 53 2 - C, 5% to 85% of 2^14 70 100KD, 160KD, 250KD, 400KD, 250LG, 400LG, 600LG, 001KG, 1.6KG, 71 2.5KG, 004KG, 006KG, 010KG, 016KG, 025KG, 040KG, 060KG, 100KG, 72 160KG, 250KG, 400KG, 600KG, 001GG, 015PA, 030PA, 060PA, 100PA, 91 Provide VDD power to the sensor (either 3.3V or 5V depending on the chip)`
/freebsd/crypto/libecc/src/sig/
H A D	ecsdsa_common.c	105 \| I 2. Compute W = kG = (Wx, Wy) 110 \| F 5. if e == 0, restart at step 1. 150 prj_pt kG; in __ecsdsa_sign_init() local 154 kG.magic = k.magic = WORD(0); in __ecsdsa_sign_init() 160 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in __ecsdsa_sign_init() 193 /* 2. Compute W = kG = (Wx, Wy). */ in __ecsdsa_sign_init() 195 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in __ecsdsa_sign_init() 197 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in __ecsdsa_sign_init() 199 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in __ecsdsa_sign_init() 200 dbg_nn_print("W_x", &(kG.X.fp_val)); in __ecsdsa_sign_init() [all …]
H A D	ecgdsa.c	103 \| F 4. Compute W = (W_x,W_y) = kG 104 \| F 5. Compute r = W_x mod q 189 prj_pt kG; in _ecgdsa_sign_finalize() local 200 kG.magic = WORD(0); in _ecgdsa_sign_finalize() 212 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in _ecgdsa_sign_finalize() 295 /* 4. Compute W = kG = (Wx, Wy) */ in _ecgdsa_sign_finalize() 298 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in _ecgdsa_sign_finalize() 300 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in _ecgdsa_sign_finalize() 302 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in _ecgdsa_sign_finalize() 304 dbg_nn_print("W_x", &(kG.X.fp_val)); in _ecgdsa_sign_finalize() [all …]
H A D	fuzzing_ecgdsa.c	50 prj_pt kG; in ecgdsa_sign_raw() local 60 kG.magic = WORD(0); in ecgdsa_sign_raw() 72 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in ecgdsa_sign_raw() 156 /* 4. Compute W = kG = (Wx, Wy) / in ecgdsa_sign_raw() 159 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in ecgdsa_sign_raw() 161 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in ecgdsa_sign_raw() 163 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in ecgdsa_sign_raw() 165 dbg_nn_print("W_x", &(kG.X.fp_val)); in ecgdsa_sign_raw() 166 dbg_nn_print("W_y", &(kG.Y.fp_val)); in ecgdsa_sign_raw() 168 / 5. Compute r = Wx mod q */ in ecgdsa_sign_raw() [all …]
H A D	fuzzing_ecrdsa.c	89 prj_pt kG; in ecrdsa_sign_raw() local 102 kG.magic = WORD(0); in ecrdsa_sign_raw() 113 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in ecrdsa_sign_raw() 159 /* 3. Compute W = kG = (Wx, Wy) */ in ecrdsa_sign_raw() 162 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in ecrdsa_sign_raw() 164 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in ecrdsa_sign_raw() 166 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in ecrdsa_sign_raw() 167 dbg_nn_print("W_x", &(kG.X.fp_val)); in ecrdsa_sign_raw() 168 dbg_nn_print("W_y", &(kG.Y.fp_val)); in ecrdsa_sign_raw() 171 ret = nn_mod(&r, &(kG.X.fp_val), q); EG(ret, err); in ecrdsa_sign_raw() [all …]
H A D	fuzzing_ecdsa.c	48 prj_pt kG; in ecdsa_sign_raw() local 60 kG.magic = WORD(0); in ecdsa_sign_raw() 72 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in ecdsa_sign_raw() 158 /* 5. Compute W = (W_x,W_y) = kG */ in ecdsa_sign_raw() 160 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in ecdsa_sign_raw() 162 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in ecdsa_sign_raw() 164 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in ecdsa_sign_raw() 166 dbg_nn_print("W_x", &(kG.X.fp_val)); in ecdsa_sign_raw() 167 dbg_nn_print("W_y", &(kG.Y.fp_val)); in ecdsa_sign_raw() 170 ret = nn_mod(&r, &(kG.X.fp_val), q); EG(ret, err); in ecdsa_sign_raw() [all …]
H A D	ecrdsa.c	131 \| F 3. Compute W = (W_x,W_y) = kG 133 \| F 5. If r is 0, restart the process at step 2. 202 prj_pt kG; in _ecrdsa_sign_finalize() local 213 kG.magic = WORD(0); in _ecrdsa_sign_finalize() 226 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in _ecrdsa_sign_finalize() 273 /* 3. Compute W = kG = (Wx, Wy) */ in _ecrdsa_sign_finalize() 276 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in _ecrdsa_sign_finalize() 278 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in _ecrdsa_sign_finalize() 280 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in _ecrdsa_sign_finalize() 281 dbg_nn_print("W_x", &(kG.X.fp_val)); in _ecrdsa_sign_finalize() [all …]
H A D	sm2.c	231 \| F 4. Compute W = (W_x,W_y) = kG 232 \| F 5. Compute r = (OS2I(H) + Wx) mod q 318 prj_pt kG; in _sm2_sign_finalize() local 326 kG.magic = WORD(0); in _sm2_sign_finalize() 339 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in _sm2_sign_finalize() 381 /* 4. Compute W = (W_x,W_y) = kG */ in _sm2_sign_finalize() 383 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in _sm2_sign_finalize() 385 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in _sm2_sign_finalize() 387 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in _sm2_sign_finalize() 389 dbg_nn_print("W_x", &(kG.X.fp_val)); in _sm2_sign_finalize() [all …]
H A D	ecfsdsa.c	90 \| I 2. Compute W = (W_x,W_y) = kG 93 \| IUF 5. Compute h = H(r\|\|m) 126 prj_pt kG; in _ecfsdsa_sign_init() local 131 kG.magic = WORD(0); in _ecfsdsa_sign_init() 137 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in _ecfsdsa_sign_init() 175 /* 2. Compute W = (W_x,W_y) = kG */ in _ecfsdsa_sign_init() 178 ret = prj_pt_mul_blind(&kG, k, G); EG(ret, err); in _ecfsdsa_sign_init() 180 ret = prj_pt_mul(&kG, k, G); EG(ret, err); in _ecfsdsa_sign_init() 182 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in _ecfsdsa_sign_init() 184 dbg_nn_print("Wx", &(kG.X.fp_val)); in _ecfsdsa_sign_init() [all …]
H A D	eckcdsa.c	181 \| F 4. Compute W = (W_x,W_y) = kG 182 \| F 5. Compute r = H(FE2OS(W_x)). 299 prj_pt kG; in _eckcdsa_sign_finalize() local 316 kG.magic = WORD(0); in _eckcdsa_sign_finalize() 329 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in _eckcdsa_sign_finalize() 394 /* 4. Compute W = (W_x,W_y) = kG */ in _eckcdsa_sign_finalize() 397 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in _eckcdsa_sign_finalize() 399 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in _eckcdsa_sign_finalize() 401 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in _eckcdsa_sign_finalize() 402 dbg_nn_print("W_x", &(kG.X.fp_val)); in _eckcdsa_sign_finalize() [all …]
H A D	ecdsa_common.c	236 \| F 5. Compute W = (W_x,W_y) = kG 326 prj_pt kG; in __ecdsa_sign_finalize() local 338 kG.magic = WORD(0); in __ecdsa_sign_finalize() 353 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in __ecdsa_sign_finalize() 475 / 5. Compute W = (W_x,W_y) = kG */ in __ecdsa_sign_finalize() 477 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in __ecdsa_sign_finalize() 479 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in __ecdsa_sign_finalize() 481 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in __ecdsa_sign_finalize() 483 dbg_nn_print("W_x", &(kG.X.fp_val)); in __ecdsa_sign_finalize() 484 dbg_nn_print("W_y", &(kG.Y.fp_val)); in __ecdsa_sign_finalize() [all …]
H A D	bign_common.c	478 prj_pt kG; in __bign_sign_finalize() local 493 kG.magic = WORD(0); in __bign_sign_finalize() 508 ret = local_memset(&kG, 0, sizeof(prj_pt)); EG(ret, err); in __bign_sign_finalize() 615 /* 3. Compute W = (W_x,W_y) = kG */ in __bign_sign_finalize() 617 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in __bign_sign_finalize() 619 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in __bign_sign_finalize() 621 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in __bign_sign_finalize() 623 dbg_nn_print("W_x", &(kG.X.fp_val)); in __bign_sign_finalize() 624 dbg_nn_print("W_y", &(kG.Y.fp_val)); in __bign_sign_finalize() 632 ret = fp_export_to_buf(&FE2OS_W[0], p_len, &(kG.X)); EG(ret, err); in __bign_sign_finalize() [all …]
H A D	bip0340.c	170 prj_pt kG; in _bip0340_sign() local 185 k.magic = d.magic = e.magic = kG.magic = Y.magic = WORD(0); in _bip0340_sign() 296 /* Proceed with the modulation exponentiation kG / in _bip0340_sign() 299 ret = prj_pt_mul_blind(&kG, &k, G); EG(ret, err); in _bip0340_sign() 301 ret = prj_pt_mul(&kG, &k, G); EG(ret, err); in _bip0340_sign() 303 ret = prj_pt_unique(&kG, &kG); EG(ret, err); in _bip0340_sign() 305 dbg_ec_point_print("(k G)", &kG); in _bip0340_sign() 307 / Update k depending on the kG y coordinate */ in _bip0340_sign() 308 ret = _bip0340_set_scalar(&k, q, &kG); EG(ret, err); in _bip0340_sign() 312 ret = fp_export_to_buf(&sig[0], p_len, &(kG.X)); EG(ret, err); in _bip0340_sign() [all …]
/freebsd/usr.sbin/bluetooth/hccontrol/
H A D	util.c	221 /* 0025 / "Rohde & Schwarz GmbH & Co. KG", in hci_manufacturer2str() 341 / 0145 / "Advanced PANMOBIL systems GmbH & Co. KG", in hci_manufacturer2str() 813 / 0617 / "Torrox GmbH & Co KG", in hci_manufacturer2str() 829 / 0633 / "steute Schaltgerate GmbH & Co. KG", in hci_manufacturer2str() 861 / 0665 / "Inexess Technology Simma KG", in hci_manufacturer2str() 880 / 0684 / "RTB Elektronik GmbH & Co. KG", in hci_manufacturer2str() 1185 / 0989 / "Andreas Stihl AG & Co. KG", in hci_manufacturer2str() 1196 / 1000 / "Reiner Kartengeraete GmbH & Co. KG.", in hci_manufacturer2str() 1249 / 1053 / "Benning Elektrotechnik und Elektronik GmbH & Co. KG", in hci_manufacturer2str() 1257 / 1061 */ "Unify Software and Solutions GmbH & Co. KG", in hci_manufacturer2str() [all …]
/freebsd/share/man/man9/
H A D	scheduler.9	`48 .Fn resetpriority "struct ksegrp kg" 154 .Fa kg 205 that about 90% of the CPU usage is forgotten in 5 load average seconds.`
/freebsd/crypto/openssl/test/recipes/04-test_pem_reading_data/
H A D	dsa-threecolumn.pem	`46 5D6 84 5hQ 95 5ix 169 5it 233 7KG 260 5QM 317 5nG 377 5wt`
/freebsd/tests/sys/net/if_ovpn/
H A D	server.crt	6 Issuer: C=KG, ST=NA, L=BISHKEK, O=OpenVPN-TEST/emailAddress=me@myhost.mydomain 10 Subject: C=KG, ST=NA, O=OpenVPN-TEST, CN=Test-Server/emailAddress=me@myhost.mydomain 19 ec:49:06:c0:ff:21:f4:b5:5c:72:fc:c7:3e:27:86: 20 03:65:e2:d8:f7:5c:c7:23:16:82:ab:ee:81:7d:44: 21 41:a0:34:06:14:19:08:7a:47:69:5e:b6:aa:6f:74: 27 0d:39:73:23:cf:b0:5a:ab:c0:ff:ec:c1:6b:ed:fa: 31 06:76:dd:33:44:19:8e:5c:54:50:d0:2b:a8:03:06: 35 e6:15:90:02:33:d6:00:4f:1d:c9:7e:ef:5c:af:5f: 39 b5:7c:86:97:98:55:59:14:a0:0a:f4:5f:2e:8d:ae: 43 de:f8:27:e4:44:1c:3b:58:47:10:13:5f:ca:85:8b: [all …]
H A D	client.crt	6 Issuer: C=KG, ST=NA, L=BISHKEK, O=OpenVPN-TEST/emailAddress=me@myhost.mydomain 10 Subject: C=KG, ST=NA, O=OpenVPN-TEST, CN=Test-Client/emailAddress=me@myhost.mydomain 18 b3:d3:a8:fc:15:84:c4:15:86:d8:d6:69:5b:d4:9b: 24 84:4d:f6:00:d3:8c:ee:6f:71:a1:5a:b1:34:60:95: 30 a4:38:5b:ab:9f:e0:db:f1:b9:e4:ca:d0:e8:c7:dd: 32 0d:7c:5a:f3:5d:bb:42:75:7d:48:51:d7:6a:ee:93: 33 d2:e4:30:2a:5c:65:56:f4:5e:74:97:e1:7e:ae:2c: 37 d4:98:5f:27:dd:20:9e:76:35:54:75:ab:ef:74:6b: 39 96:b8:78:13:5a:91:7d:bd:a2:90:54:9d:07:87:fd: 41 f1:6f:6f:85:71:7e:71:b2:bc:6d:97:e7:fc:8c:5e: [all …]
/freebsd/lib/libpam/modules/pam_xdg/
H A D	pam_xdg.8	`3 .\" Copyright (c) 2024 Beckhoff Automation GmbH & Co. KG 60 .Xr pam.conf 5`
/freebsd/sys/contrib/ncsw/Peripherals/FM/Pcd/
H A D	fm_pcd_ipc.h	`133 @Description Used by FM PCD front-end in order to allocate KG resources 142 @Description Used by FM PCD front-end in order to Free KG resources 155 #define FM_PCD_ALLOC_PROFILES 5 228 @Description Used by FM PCD front-end in order to Free KG classification plan entries 237 @Description Used by FM PCD front-end in order to allocate KG classification plan entries`
/freebsd/contrib/libarchive/libarchive/test/
H D	test_read_format_7zip_deflate_arm64.7z.uu	4 M>2.2T-J0XF&!R-C_.Z=<^_<NSLKWK^?]MS?GM\]OW//W'ONS&5:U<%#$,Y 5 M3'5;6;UP[TH_K/,=_:RLDYNO^LIQM!JEK&%!=USW^,/PQS[.=73=_(`<ND>9 24 M]_;Y0?.6M-W&>.\<Z.E6>O[(+E)GKK5[]X.5``````````````````````` 28 M5-23@H(?5#36))79Z4EE=P_B:=[2>>G75=7=-36]F0D1(D2($"%"A`@1(D2( 30 MJ19KXRK4T$'ZG;8Z=S;FI_&QU+]/(YX-O$,D-'66%]5J;%_0KQ=/_V$;.( 33 MT95(QAHCL25&I=^PS8)A.5I^:>QP02LYAAVST7OEVK5KXWW+>U<G,VNZ5ZY= 34 M91R!4:`-%%BC<KH:4['OPJKM\,@JW?`0U;OQ#KG]`A>?TZ/PEY6'P-G67TL 35 MUC&GCX.'K#X>GK/Z!.CIY/2)>`YP^B2XPNJ3X3:K3X%7K#[5.U=D?1H,LOIT 37 M!;Y$&)W)\QQ^/5Y\QQ^?YE=]^G3)7JX33V>N>YR?UXOSI$6<"X$XT98_Y7` 40 MZL'[^BT@F//D.]D_KRK-^V+.MPFF_UF+$,]!LVXZ.K,N;$5]< [all...]
/freebsd/usr.sbin/fwget/pci/
H A D	pci_video_amd	`4 # Copyright 2023 Beckhoff Automation GmbH & Co. KG 168 addpkg "gpu-firmware-amd-kmod-psp-13-0-5" 169 addpkg "gpu-firmware-amd-kmod-dcn-3-1-5" 170 addpkg "gpu-firmware-amd-kmod-sdma-5-2-6"`
/freebsd/sys/compat/linuxkpi/common/include/linux/
H A D	i2c.h	`2 * Copyright (c) 2021 Beckhoff Automation GmbH & Co. KG 104 #define I2C_AQ_NO_ZERO_LEN_READ BIT(5)`

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