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Results 1 - 10 of 33 for precision (0.18 sec)
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tensorflow/compiler/mlir/lite/stablehlo/tests/uniform-quantized-stablehlo-to-tfl.mlir
lhs_batching_dimensions = [0, 1], rhs_batching_dimensions = [0, 1], lhs_contracting_dimensions = [3], rhs_contracting_dimensions = [2]>, precision_config = [#stablehlo<precision DEFAULT>, #stablehlo<precision DEFAULT>] } : (tensor<1x2x3x4x!quant.uniform<i8:f32, 1.000000e+0:-100>>, tensor<1x2x4x5x!quant.uniform<i8:f32, 1.000000e+0>>) -> tensor<1x2x3x5x!quant.uniform<i8:f32, 4.000000e+0>>
Registered: Sun Jun 16 05:45:23 UTC 2024 - Last Modified: Tue May 14 17:10:32 UTC 2024 - 106.2K bytes - Viewed (0) -
src/database/sql/sql.go
func (ci *ColumnType) Length() (length int64, ok bool) { return ci.length, ci.hasLength } // DecimalSize returns the scale and precision of a decimal type. // If not applicable or if not supported ok is false. func (ci *ColumnType) DecimalSize() (precision, scale int64, ok bool) { return ci.precision, ci.scale, ci.hasPrecisionScale } // ScanType returns a Go type suitable for scanning into using [Rows.Scan].
Registered: Wed Jun 12 16:32:35 UTC 2024 - Last Modified: Thu May 23 01:16:53 UTC 2024 - 103.6K bytes - Viewed (0) -
doc/go1.17_spec.html
or a complex number to another complex type, the result value is rounded to the precision specified by the destination type. For instance, the value of a variable <code>x</code> of type <code>float32</code> may be stored using additional precision beyond that of an IEEE 754 32-bit number, but float32(x) represents the result of rounding <code>x</code>'s value to 32-bit precision. Similarly, <code>x + 0.1</code> may use more than 32 bits
Registered: Wed Jun 12 16:32:35 UTC 2024 - Last Modified: Thu Apr 11 20:22:45 UTC 2024 - 211.6K bytes - Viewed (0) -
tensorflow/compiler/mlir/lite/stablehlo/transforms/uniform_quantized_stablehlo_to_tfl_pass.cc
const auto filter_quantized_element_type = GetElementType(filter_const_op.getResult()) .cast<UniformQuantizedPerAxisType>(); // The storage type is i32 for bias, which is the precision used for // accumulation. bias_quantized_type = CreateI32F32UniformQuantizedPerAxisType( loc, ctx, GetBiasScales(input_scale, filter_quantized_element_type.getScales()),
Registered: Sun Jun 16 05:45:23 UTC 2024 - Last Modified: Mon Apr 22 09:00:19 UTC 2024 - 99.8K bytes - Viewed (0) -
pkg/config/validation/validation.go
if policy.MaxAge != nil { errs = appendErrors(errs, agent.ValidateDuration(policy.MaxAge)) if policy.MaxAge.Nanos > 0 { errs = multierror.Append(errs, errors.New("max_age duration is accurate only to seconds precision")) } } return } func validateAllowOrigins(origin *networking.StringMatch) error { var match string switch origin.MatchType.(type) { case *networking.StringMatch_Exact:
Registered: Fri Jun 14 15:00:06 UTC 2024 - Last Modified: Wed Jun 12 04:03:33 UTC 2024 - 107.2K bytes - Viewed (0) -
api/openapi-spec/v3/apis__node.k8s.io__v1_openapi.json
the same type again when it is serialized.\n\nBefore serializing, Quantity will be put in \"canonical form\". This means that Exponent/suffix will be adjusted up or down (with a corresponding increase or decrease in Mantissa) such that:\n\n- No precision is lost - No fractional digits will be emitted - The exponent (or suffix) is as large as possible.\n\nThe sign will be omitted unless the number is negative.\n\nExamples:\n\n- 1.5 will be serialized as \"1500m\" - 1.5Gi will be serialized as \"1536Mi\"\n\nNote...
Registered: Sat Jun 15 01:39:40 UTC 2024 - Last Modified: Fri Mar 08 04:18:56 UTC 2024 - 122.9K bytes - Viewed (0) -
api/openapi-spec/v3/apis__coordination.k8s.io__v1_openapi.json
} }, "type": "object" }, "io.k8s.apimachinery.pkg.apis.meta.v1.MicroTime": { "description": "MicroTime is version of Time with microsecond level precision.", "format": "date-time", "type": "string" }, "io.k8s.apimachinery.pkg.apis.meta.v1.ObjectMeta": {
Registered: Sat Jun 15 01:39:40 UTC 2024 - Last Modified: Fri Mar 08 04:18:56 UTC 2024 - 136.6K bytes - Viewed (0) -
api/openapi-spec/v3/apis__events.k8s.io__v1_openapi.json
} }, "type": "object" }, "io.k8s.apimachinery.pkg.apis.meta.v1.MicroTime": { "description": "MicroTime is version of Time with microsecond level precision.", "format": "date-time", "type": "string" }, "io.k8s.apimachinery.pkg.apis.meta.v1.ObjectMeta": {
Registered: Sat Jun 15 01:39:40 UTC 2024 - Last Modified: Fri Mar 08 04:18:56 UTC 2024 - 142.7K bytes - Viewed (0) -
src/cmd/compile/internal/ssa/_gen/generic.rules
(Div32F x (Const32F <t> [c])) && reciprocalExact32(c) => (Mul32F x (Const32F <t> [1/c])) (Div64F x (Const64F <t> [c])) && reciprocalExact64(c) => (Mul64F x (Const64F <t> [1/c])) // rewrite single-precision sqrt expression "float32(math.Sqrt(float64(x)))" (Cvt64Fto32F sqrt0:(Sqrt (Cvt32Fto64F x))) && sqrt0.Uses==1 => (Sqrt32 x) (Sqrt (Const64F [c])) && !math.IsNaN(math.Sqrt(c)) => (Const64F [math.Sqrt(c)])
Registered: Wed Jun 12 16:32:35 UTC 2024 - Last Modified: Thu May 16 22:21:05 UTC 2024 - 135.3K bytes - Viewed (0) -
api/openapi-spec/v3/apis__autoscaling__v2_openapi.json
the same type again when it is serialized.\n\nBefore serializing, Quantity will be put in \"canonical form\". This means that Exponent/suffix will be adjusted up or down (with a corresponding increase or decrease in Mantissa) such that:\n\n- No precision is lost - No fractional digits will be emitted - The exponent (or suffix) is as large as possible.\n\nThe sign will be omitted unless the number is negative.\n\nExamples:\n\n- 1.5 will be serialized as \"1500m\" - 1.5Gi will be serialized as \"1536Mi\"\n\nNote...
Registered: Sat Jun 15 01:39:40 UTC 2024 - Last Modified: Fri Mar 08 04:18:56 UTC 2024 - 186.6K bytes - Viewed (0)