/barrelfish-2018-10-04/usr/eclipseclp/ecrc_solvers/propia/ |
H A D | manual_examples.pl | 19 product(p1,1,19,1). 20 product(p2,2,17,2). 21 product(p3,3,15,3). 22 product(p4,4,13,4). 23 product(p5,10,8,5). 24 product(p6,16,4,4). 25 product(p7,17,3,3). 26 product(p8,18,2,2). 27 product(p9,19,1,1). 32 product(Nam [all...] |
/barrelfish-2018-10-04/usr/eclipseclp/ecrc_solvers/ |
H A D | propia_fdtests.pl | 91 product(p1,1,19,1). 92 product(p2,2,17,2). 93 product(p3,3,15,3). 94 product(p4,4,13,4). 95 product(p5,10,8,5). 96 product(p6,16,4,4). 97 product(p7,17,3,3). 98 product(p8,18,2,2). 99 product(p9,19,1,1). 104 product(Nam [all...] |
/barrelfish-2018-10-04/tools/harness/tests/ |
H A D | mdbbench.py | 6 from itertools import product namespace 54 for c, m, r, i in product(self.counts, self.measures, self.resets, self.impls): 59 for c, m, r in product(self.counts, self.impl_measures[i], self.resets): 64 for c, r in product(self.counts, self.resets):
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/barrelfish-2018-10-04/include/usb/ |
H A D | usb_device.h | 86 uint16_t product; ///< product id member in struct:usb_device
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/barrelfish-2018-10-04/usr/drivers/usb/usb_manager/include/ |
H A D | usb_device.h | 126 char *product; member in struct:usb_device
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/barrelfish-2018-10-04/usr/drivers/usb/usb_manager/ |
H A D | usb_driver.c | 40 * \param product the product ID of the device 50 uint16_t vendor, uint16_t product) 400 USB_DEBUG_DRIVER("Hub device. [%s, %s]\n", device->manifacturer, device->product); 413 USB_DEBUG_DRIVER("Vendor: [%s], Product: [%s]\n", device->manifacturer, device->product); 49 usb_driver_query(uint8_t class, uint8_t subclass, uint8_t protocol, uint16_t vendor, uint16_t product) argument
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H A D | usb_device.c | 428 snprintf(buf, 255, "product 0x%04x", device->device_desc.idProduct); 429 device->product = strdup(buf); 431 device->product = strdup(buf); 743 if (device->product) 744 free(device->product);
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/barrelfish-2018-10-04/usr/eclipseclp/documents/libman/ |
H A D | extpropia.tex | 235 /*** product(Name,#Component1,#Component2,Profit). **/ 236 product(1,1,19,1). 237 product(2,2,17,2). 238 product(3,3,15,3). 239 product(4,4,13,4). 240 product(5,10,8,5). 241 product(6,16,4,4). 242 product(7,17,3,3). 243 product(8,18,2,2). 244 product( [all...] |
H A D | fdglobal.tex | 203 In this variant, an area (the product of duration and resource usage of
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/barrelfish-2018-10-04/lib/compiler-rt/builtins/ |
H A D | fp_lib.h | 55 const uint64_t product = (uint64_t)a*b; local 56 *hi = product >> 32; 57 *lo = product;
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/barrelfish-2018-10-04/usr/eclipseclp/documents/tutorial/ |
H A D | propiachr.tex | 141 identified by their product number 101-109) to 147 each product is listed in a table, together with its profit. 149 \index{product\_plan} 150 \index{product} 160 product( 101,1,19,1). product( 102,2,17,2). product( 103,3,15,3). 161 product( 104,4,13,4). product( 105,10,8,5). product( 10 [all...] |
H A D | eplex.tex | 116 several plants (1-3) have varying product producing capacities that must 118 the product. The per-unit cost of transporting the product to 122 To formulate the problem, we define the amount of product transported from 128 \item The amount of product delivered from all the plants to a client must be equal to the 133 \item The amount of product sent by a plant must not be more than its 140 function is to minimise the combined costs of transporting the product to 754 following resources to produce each unit of the product:
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H A D | icintro.tex | 696 Let us assume we have a symmetric relation that defines which product 698 product identifiers: 776 passing a list containing the product identifiers in the first argument 777 of \verb0colocate/20 as {\it Xs} and a list containing product identifiers
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/barrelfish-2018-10-04/lib/openssl-1.0.0d/crypto/bn/ |
H A D | bn_prime.pl | 50 * If this package is used in a product, Eric Young should be given attribution 65 * "This product includes cryptographic software written by 71 * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
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/barrelfish-2018-10-04/lib/openssl-1.0.0d/util/ |
H A D | add_cr.pl | 82 * If this package is used in a product, Eric Young should be given attribution 97 * "This product includes cryptographic software written by 103 * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
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H A D | mkerr.pl | 410 " * \"This product includes software developed by the OpenSSL Project\n", 424 " * \"This product includes software developed by the OpenSSL Project\n", 441 " * This product includes cryptographic software written by Eric Young\n", 442 " * (eay\@cryptsoft.com). This product includes software written by Tim\n", 595 * "This product includes software developed by the OpenSSL Project 609 * "This product includes software developed by the OpenSSL Project 626 * This product includes cryptographic software written by Eric Young 627 * (eay\@cryptsoft.com). This product includes software written by Tim
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/barrelfish-2018-10-04/lib/usb/ |
H A D | usb_device.c | 255 device.product = ddesc->idProduct;
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/barrelfish-2018-10-04/usr/eclipseclp/Kernel/src/ |
H A D | bip_arith.c | 490 pword product; local 492 pvar->val, pvar->tag, &product, ARITH_MUL); 494 err = bin_arith_op(product.val, product.tag, 646 pword product; local 648 cur_var->val, cur_var->tag, &product, ARITH_MUL); 650 err = bin_arith_op(product.val, product.tag,
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/barrelfish-2018-10-04/lib/openssl-1.0.0d/crypto/conf/ |
H A D | keysets.pl | 72 * If this package is used in a product, Eric Young should be given attribution 87 * "This product includes cryptographic software written by 93 * "This product includes software written by Tim Hudson (tjh\@cryptsoft.com)"
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/barrelfish-2018-10-04/usr/eclipseclp/Contrib/ |
H A D | xml_utilities.pl | 384 "otimes"-[8855], % circled times = vector product,
400 "prod"-[8719], % n-ary product = product sign,
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/barrelfish-2018-10-04/lib/openssl-1.0.0d/crypto/objects/ |
H A D | obj_dat.pl | 194 * If this package is used in a product, Eric Young should be given attribution 209 * "This product includes cryptographic software written by 215 * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
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H A D | objects.pl | 145 * If this package is used in a product, Eric Young should be given attribution 160 * "This product includes cryptographic software written by 166 * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
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/barrelfish-2018-10-04/lib/tommath/ |
H A D | tommath.tex | 215 major companies such as RSA Security, Certicom and Entrust have built entire product lines on the implementation and 234 the product of two $n$-bit integers requires at least $2n$ bits of precision to be represented faithfully. A multiple 326 $a = 23$ and $b = 49$ represent two single precision variables. The single precision product shall be written 327 as $c \leftarrow a \cdot b$ while the double precision product shall be written as $\hat c \leftarrow a \cdot b$. 328 In this particular case, $\hat c = 1127$ and $c = 127$. The most significant digit of the product would not fit 534 highly modular. Being highly modular is a desirable property of any project as it often means the resulting product 1057 For example, suppose the product of two integers was $x_n = (0x_{n-1}x_{n-2}...x_0)_{\beta}$. The leading zero digit 2309 quickly compute the product. 2316 required. If it is non-zero a modified shift loop is used to calculate the remaining product. 2501 Computing the product o [all...] |
/barrelfish-2018-10-04/usr/eclipseclp/ecrc_solvers/grace/ |
H A D | matrix_util.pl | 78 % Scalar product of two lists
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/barrelfish-2018-10-04/usr/eclipseclp/Kernel/lib/ |
H A D | linearize.pl | 407 % the product of all the list elements. 447 the product of all the list elements.
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