Visible to Intel only — GUID: GUID-17AF64C8-9754-492A-BD0E-00C26E82A070
FPGA Optimization Guide for Intel® oneAPI Toolkits
Introduction To FPGA Design Concepts
Analyze Your Design
Optimize Your Design
FPGA Optimization Flags, Attributes, Pragmas, and Extensions
Quick Reference
Additional Information
Document Revision History for the FPGA Optimization Guide for Intel® oneAPI Toolkits
Refactor the Loop-Carried Data Dependency
Relax Loop-Carried Dependency
Transfer Loop-Carried Dependency to Local Memory
Minimize the Memory Dependencies for Loop Pipelining
Unroll Loops
Fuse Loops to Reduce Overhead and Improve Performance
Optimize Loops With Loop Speculation
Remove Loop Bottlenecks
Shannonization to Improve FMAX/II
Optimize Inner Loop Throughput
Improve Loop Performance by Caching On-Chip Memory
Global Memory Bandwidth Use Calculation
Manual Partition of Global Memory
Partitioning Buffers Across Different Memory Types (Heterogeneous Memory)
Partitioning Buffers Across Memory Channels of the Same Memory Type
Ignoring Dependencies Between Accessor Arguments
Contiguous Memory Accesses
Static Memory Coalescing
Specify Schedule FMAX Target for Kernels (-Xsclock=<clock target>)
Disable Burst-Interleaving of Global Memory (-Xsno-interleaving=<global_memory_type>)
Force Ring Interconnect for Global Memory (-Xsglobal-ring)
Force a Single Store Ring to Reduce Area (-Xsforce-single-store-ring)
Force Fewer Read Data Reorder Units to Reduce Area (-Xsnum-reorder)
Disable Hardware Kernel Invocation Queue (-Xsno-hardware-kernel-invocation-queue)
Modify the Handshaking Protocol Between Clusters (-Xshyper-optimized-handshaking)
Disable Automatic Fusion of Loops (-Xsdisable-auto-loop-fusion)
Fuse Adjacent Loops With Unequal Trip Counts (-Xsenable-unequal-tc-fusion)
Pipeline Loops in Non-task Kernels (-Xsauto-pipeline)
Control Semantics of Floating-Point Operations (-fp-model=<value>)
Modify the Rounding Mode of Floating-point Operations (-Xsrounding=<rounding_type>)
Global Control of Exit FIFO Latency of Stall-free Clusters (-Xssfc-exit-fifo-type=<value>)
Enable the Read-Only Cache for Read-Only Accessors (-Xsread-only-cache-size=<N>)
Control Hardware Implementation of the Supported Data Types and Math Operations (-Xsdsp-mode=<option>)
Visible to Intel only — GUID: GUID-17AF64C8-9754-492A-BD0E-00C26E82A070
Obtain Profiling Data During Runtime
You can obtain profiling data during runtime in one of the following ways:
- Use the Profiler Runtime Wrapper from the command line to obtain the data. This data can later be imported into the Intel® VTune™ Profiler as described in Import FPGA Data collected with Profiler Runtime Wrapper. For more information about the Profiler Runtime Wrapper, refer to Invoke the Profiler Runtime Wrapper to Obtain Profiling Data.
- Run your host application in Intel® VTune™ Profiler using the CPU/FPGA Interaction view. For more information about how to configure and run your host application, refer to CPU/FPGA Interaction Analysis and Use Intel® VTune™ Profiler.
Parent topic: Intel® FPGA Dynamic Profiler for DPC++