Visible to Intel only — GUID: mwh1391807961746
Ixiasoft
Visible to Intel only — GUID: mwh1391807961746
Ixiasoft
A.1.1. OpenCL 1.0 C Programming Language Implementation
Support Status column legend:
Symbol | Description |
---|---|
● | The feature is supported, and there might be a clarification for the supported feature in the Notes column |
○ | The feature is supported with exceptions identified in the Notes column. |
X | The feature is not supported. |
Section | Feature | Support Status | Notes |
---|---|---|---|
6.1.1 | Built-in Scalar Data Types | ||
double precision float | ○ | Preliminary support for all double precision float built-in scalar data type. This feature might not conform with the OpenCL Specification version 1.0. Currently, the following double precision floating-point functions are expected to conform with the OpenCL Specification version 1.0: add / subtract / multiply / divide / ceil / floor / rint / trunc / fabs / fmax / fmin / sqrt / rsqrt / exp / exp2 / exp10 / log / log2 / log10 / sin / cos / asin / acos / sinh / cosh / tanh / asinh / acosh / atanh / pow / pown / powr / tanh / atan / atan2 / ldexp / log1p / sincos |
|
half precision float | ○ | Support for scalar addition, subtraction and multiplication. Support for conversions to and from single-precision floating point. This feature might not conform with the OpenCL Specification version 1.0. This feature is supported in the Emulator. |
|
6.1.2 | Built-in Vector Data Types | ○ | Preliminary support for vectors with three elements. Three-element vector support is a supplement to the OpenCL Specification version 1.0. |
6.1.3 | Other Built-in Data Types | ○ | The SDK does not support image or sampler types because the SDK does not support images. |
6.2.1 | Implicit Conversions | ● | Refer to Section 6.2.6: Usual Arithmetic Conversions in the OpenCL Specification version 1.2 for an important clarification of implicit conversions between scalar and vector types. |
6.2.2 | Explicit Casts | ● | The SDK allows scalar data casts to a vector with a different element type. |
6.5 | Address Space Qualifiers | ○ | Function scope__constant variables are not supported. |
6.6 | Image Access Qualifiers | X | The SDK does not support images. |
6.7 | Function Qualifiers | ||
6.7.2 | Optional Attribute Qualifiers | ● | Refer to the Intel® FPGA SDK for OpenCL™ Best Practices Guide for tips on using reqd_work_group_size to improve kernel performance. The SDK parses but ignores the vec_type_hint and work_group_size_hint attribute qualifiers. |
6.9 | Preprocessor Directives and Macros | ||
#pragma directive: #pragma unroll | ● | The Intel® FPGA SDK for OpenCL™ Offline Compiler supports only #pragma unroll. You may assign an integer argument to the unroll directive to control the extent of loop unrolling. For example, #pragma unroll 4 unrolls four iterations of a loop. By default, an unroll directive with no unroll factor causes the offline compiler to attempt to unroll the loop fully. Refer to the Intel® FPGA SDK for OpenCL™ Best Practices Guide for tips on using #pragma unroll to improve kernel performance. |
|
__ENDIAN_LITTLE__ defined to be value 1 | ● | The target FPGA is little-endian. | |
__IMAGE_SUPPORT__ | X | __IMAGE_SUPPORT__ is undefined; the SDK does not support images. | |
6.10 | Attribute Qualifiers—The offline compiler parses attribute qualifiers as follows: | ||
6.10.3 | Specifying Attributes of Variables—endian | X | |
6.10.4 | Specifying Attributes of Blocks and Control-Flow-Statements | X | |
6.10.5 | Extending Attribute Qualifiers | ● | The offline compiler can parse attributes on various syntactic structures. It reserves some attribute names for its own internal use. Refer to the Intel® FPGA SDK for OpenCL™ Best Practices Guide for tips on how to optimize kernel performance using these kernel attributes. |
6.11.2 | Math Functions | ||
built-in math functions | ○ | Preliminary support for double precision floating-point built-in math functions that might not conform with the OpenCL Specification version 1.0. | |
built-in half_ and native_ math functions | ○ | Preliminary support for double precision floating-point built-in half_ and native_ math functions that might not conform with the OpenCL Specification version 1.0. | |
6.11.5 | Geometric Functions | ○ | Preliminary support for double precision floating-point built-in geometric functions. These functions might not conform with the OpenCL Specification version 1.0. Refer to Argument Types for Built-in Geometric Functions for a list of built-in geometric functions supported by the SDK. |
6.11.8 | Image Read and Write Functions | X | The SDK does not support images. |
6.11.9 | Synchronization Functions—the barrier synchronization function | ● | Clarifications and exceptions:
The work-item limit is the maximum supported work-group size for the kernel; this limit is enforced by the runtime. |
6.11.11 | Async Copies from Global to Local Memory, Local to Global Memory, and Prefetch | ● | The implementation is naive: Work-item (0,0,0) performs the copy and the wait_group_events is implemented as a barrier.
|