| /external/tensorflow/tensorflow/contrib/coder/kernels/ |
| range_coder_test.cc | 28 void RangeEncodeDecodeTest(int precision, random::SimplePhilox* gen) {
39 const int multiplier = (precision > 7) ? 32 : 1;
43 (multiplier << precision) - histogram.size() * (multiplier - 1);
59 ASSERT_EQ(cdf.back(), 1 << precision);
62 const double normalizer = static_cast<double>(1 << precision);
67 RangeEncoder encoder(precision);
82 RangeDecoder decoder(encoded, precision);
92 const int precision = 1 + rand.Uniform(11); local
93 RangeEncodeDecodeTest(precision, &rand);
99 for (int precision = 12; precision < 17; ++precision)
[all...] |
| /external/compiler-rt/lib/builtins/ |
| fp_trunc.h | 1 //=== lib/fp_trunc.h - high precision -> low precision conversion *- C -*-===//
10 // Set source and destination precision setting
38 #error Source should be double precision or quad precision!
39 #endif //end source precision
60 #error Destination should be single precision or double precision!
61 #endif //end destination precision
|
| /frameworks/native/opengl/tests/gl_perf/ |
| fragment_shaders.cpp | 11 "precision mediump float;\n"
21 "precision mediump float;\n"
31 "precision mediump float;\n"
42 "precision mediump float;\n"
55 "precision mediump float;\n"
69 "precision mediump float;\n"
82 "precision mediump float;\n"
97 "precision mediump float;\n"
112 "precision mediump float;\n"
|
| /external/deqp/modules/gles3/functional/ |
| es3fShaderCommonFunctionTests.cpp | 123 inline bool supportsSignedZero (glu::Precision precision)
127 return precision == glu::PRECISION_HIGHP;
149 static int getMinMantissaBits (glu::Precision precision)
158 DE_ASSERT(de::inBounds<int>(precision, 0, DE_LENGTH_OF_ARRAY(bits)));
159 return bits[precision];
390 static const char* getPrecisionPostfix (glu::Precision precision)
399 DE_ASSERT(de::inBounds<int>(precision, 0, DE_LENGTH_OF_ARRAY(s_postfix)))
447 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
459 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
529 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
552 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
629 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
659 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
741 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
750 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
804 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
827 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
885 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
908 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
972 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
981 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1096 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1112 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1192 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1218 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1300 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1330 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1428 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1445 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1533 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
1563 const glu::Precision precision = m_spec.inputs[0].varType.getPrecision(); local
[all...] |
| /external/compiler-rt/lib/builtins/arm/ |
| truncdfsf2vfp.S | 15 // Converts double precision float to signle precision result.
16 // Uses Darwin calling convention where a double precision parameter is
17 // passed in a R0/R1 pair and a signle precision result is returned in R0.
23 vcvt.f32.f64 s15, d7 // convert double to single (trucate precision)
|
| /external/deqp/data/gles3/shaders/ |
| negative.test | 10 precision highp float;
26 precision highp float;
57 precision highp float;
73 precision highp float;
89 precision highp float;
|
| /external/deqp/external/openglcts/data/gles3/ |
| literal_parsing.test | 11 precision mediump float;
30 precision mediump float;
46 precision mediump float;
70 precision mediump float;
93 precision mediump float;
|
| /external/icu/android_icu4j/src/main/tests/android/icu/impl/number/ |
| DecimalQuantity_ByteArrayBCD.java | 58 if (position < 0 || position > precision) return 0;
71 ensureCapacity(precision + numDigits);
72 int i = precision + numDigits - 1;
80 precision += numDigits;
86 for (; i < precision - numDigits; i++) {
89 for (; i < precision; i++) {
93 precision -= numDigits;
98 for (int i = 0; i < precision; i++) {
102 precision = 0;
116 precision = i
[all...] |
| /external/icu/icu4j/main/tests/core/src/com/ibm/icu/impl/number/ |
| DecimalQuantity_ByteArrayBCD.java | 55 if (position < 0 || position > precision) return 0;
68 ensureCapacity(precision + numDigits);
69 int i = precision + numDigits - 1;
77 precision += numDigits;
83 for (; i < precision - numDigits; i++) {
86 for (; i < precision; i++) {
90 precision -= numDigits;
95 for (int i = 0; i < precision; i++) {
99 precision = 0;
113 precision = i
[all...] |
| /external/vulkan-validation-layers/libs/glm/detail/ |
| type_mat2x3.inl | 32 template <typename T, precision P>
41 template <typename T, precision P>
52 template <typename T, precision P>
66 template <typename T, precision P>
73 template <typename T, precision P>
83 template <typename T, precision P>
84 template <precision Q>
92 template <typename T, precision P>
99 template <typename T, precision P>
109 template <typename T, precision P>
[all...] |
| func_matrix.hpp | 34 /// single-precision floating point version, where all arguments and return values
35 /// are single precision, and a double-precision floating version, where all
36 /// arguments and return values are double precision. Only the single-precision
44 #include "../detail/precision.hpp"
63 template <typename T, precision P>
69 template <typename T, precision P>
75 template <typename T, precision P>
81 template <typename T, precision P
[all...] |
| type_vec3.inl | 32 template <typename T, precision P>
41 template <typename T, precision P>
48 template <typename T, precision P>
58 template <typename T, precision P>
65 template <typename T, precision P>
72 template <typename T, precision P>
73 template <precision Q>
83 template <typename T, precision P>
87 template <typename T, precision P>
94 template <typename T, precision P
[all...] |
| type_vec2.inl | 32 template <typename T, precision P>
41 template <typename T, precision P>
48 template <typename T, precision P>
58 template <typename T, precision P>
64 template <typename T, precision P>
70 template <typename T, precision P>
71 template <precision Q>
80 template <typename T, precision P>
84 template <typename T, precision P>
90 template <typename T, precision P
[all...] |
| type_mat2x2.hpp | 40 template <typename T, precision P>
53 template <typename U, precision Q>
55 template <typename U, precision Q>
68 template <precision Q>
96 template <typename U, precision Q>
144 template <typename T, precision P>
148 template <typename T, precision P>
153 template <typename T, precision P>
158 template <typename T, precision P>
163 template <typename T, precision P
[all...] |
| type_mat3x3.hpp | 40 template <typename T, precision P>
53 template <typename U, precision Q>
55 template <typename U, precision Q>
67 template <precision Q>
101 template <typename U, precision Q>
147 template <typename T, precision P>
151 template <typename T, precision P>
156 template <typename T, precision P>
161 template <typename T, precision P>
166 template <typename T, precision P
[all...] |
| /prebuilts/ndk/r16/sources/third_party/vulkan/src/libs/glm/detail/ |
| type_mat2x3.inl | 32 template <typename T, precision P>
41 template <typename T, precision P>
52 template <typename T, precision P>
66 template <typename T, precision P>
73 template <typename T, precision P>
83 template <typename T, precision P>
84 template <precision Q>
92 template <typename T, precision P>
99 template <typename T, precision P>
109 template <typename T, precision P>
[all...] |
| func_matrix.hpp | 34 /// single-precision floating point version, where all arguments and return values
35 /// are single precision, and a double-precision floating version, where all
36 /// arguments and return values are double precision. Only the single-precision
44 #include "../detail/precision.hpp"
63 template <typename T, precision P>
69 template <typename T, precision P>
75 template <typename T, precision P>
81 template <typename T, precision P
[all...] |
| type_vec3.inl | 32 template <typename T, precision P>
41 template <typename T, precision P>
48 template <typename T, precision P>
58 template <typename T, precision P>
65 template <typename T, precision P>
72 template <typename T, precision P>
73 template <precision Q>
83 template <typename T, precision P>
87 template <typename T, precision P>
94 template <typename T, precision P
[all...] |
| type_vec2.inl | 32 template <typename T, precision P>
41 template <typename T, precision P>
48 template <typename T, precision P>
58 template <typename T, precision P>
64 template <typename T, precision P>
70 template <typename T, precision P>
71 template <precision Q>
80 template <typename T, precision P>
84 template <typename T, precision P>
90 template <typename T, precision P
[all...] |
| type_mat2x2.hpp | 40 template <typename T, precision P>
53 template <typename U, precision Q>
55 template <typename U, precision Q>
68 template <precision Q>
96 template <typename U, precision Q>
144 template <typename T, precision P>
148 template <typename T, precision P>
153 template <typename T, precision P>
158 template <typename T, precision P>
163 template <typename T, precision P
[all...] |
| type_mat3x3.hpp | 40 template <typename T, precision P>
53 template <typename U, precision Q>
55 template <typename U, precision Q>
67 template <precision Q>
101 template <typename U, precision Q>
147 template <typename T, precision P>
151 template <typename T, precision P>
156 template <typename T, precision P>
161 template <typename T, precision P>
166 template <typename T, precision P
[all...] |
| /external/cblas/src/ |
| Makefile | 27 # All object files for single real precision
35 # All object files for double real precision
44 # All object files for single complex precision
51 # All object files for double complex precision
59 # Common files for single / complex precision
73 # Single real precision
78 # Double real precision
83 # Single complex precision
88 # Double complex precision
107 # All object files for single real precision
[all...] |
| /external/vulkan-validation-layers/libs/glm/gtx/ |
| dual_quaternion.hpp | 56 template <typename T, precision P>
88 template <typename T, precision P>
92 template <typename T, precision P>
97 template <typename T, precision P>
102 template <typename T, precision P>
107 template <typename T, precision P>
112 template <typename T, precision P>
117 template <typename T, precision P>
122 template <typename T, precision P>
127 template <typename T, precision P
[all...] |
| /prebuilts/ndk/r16/sources/third_party/vulkan/src/libs/glm/gtx/ |
| dual_quaternion.hpp | 56 template <typename T, precision P>
88 template <typename T, precision P>
92 template <typename T, precision P>
97 template <typename T, precision P>
102 template <typename T, precision P>
107 template <typename T, precision P>
112 template <typename T, precision P>
117 template <typename T, precision P>
122 template <typename T, precision P>
127 template <typename T, precision P
[all...] |
| /device/linaro/bootloader/edk2/PcAtChipsetPkg/HpetTimerDxe/ |
| HpetTimerDxe.uni | 4 // Timer Architectural Protocol module using High Precision Event Timer (HPET).
19 #string STR_MODULE_ABSTRACT #language en-US "Timer Architectural Protocol module using High Precision Event Timer (HPET)"
21 #string STR_MODULE_DESCRIPTION #language en-US "Timer Architectural Protocol module using High Precision Event Timer (HPET)."
|
