Bataev A LLVM Compiler for RISC-V Architecture A Unique Approach 2026
Bataev A LLVM Compiler for RISC-V Architecture A Unique Approach 2026 | 2.16 MB
Title: LLVM Compiler for RISC-V Architecture: A Unique Approach to Vectorization
Author: Alexey Bataev
Description:
This book offers a comprehensive introduction to the RISC-V RVV extension and its integration with LLVM-based compilers. It covers the LLVM VPlan-based Loop Vectorizer and SLP Vectorizer, along with additional insights into the clang frontend, OpenMP support, and RVV-specific clang directives provided by SiFive.
Given the limited information currently available on RVV and its support in modern compilers, this book fills a crucial gap. RVV introduces a unique approach to vectorization—Vector Length Agnostic (VLA) vectorization—which stands out from the fixed vectors of x86 and the runtime-defined, yet fixed, ARM-based SVE and SVE2 extensions.
Readers will gain an understanding of RVV-specific VLA-based vectorization support in LLVM-based compilers, which are still under development. The book also provides early insights into the ongoing support for RVV in LLVM.
What You'll Learn
Who This Book Is For
DOWNLOAD:
https://rapidgator.net/file/dc4c61bd1d931433bf4e1f3c23a4721e/Bataev_A._LLVM_Compiler_for_RISC-V_Architecture._A_Unique_Approach...2026.rar
https://nitroflare.com/view/7C4C16085C7C08C/Bataev_A._LLVM_Compiler_for_RISC-V_Architecture._A_Unique_Approach...2026.rar
This book offers a comprehensive introduction to the RISC-V RVV extension and its integration with LLVM-based compilers. It covers the LLVM VPlan-based Loop Vectorizer and SLP Vectorizer, along with additional insights into the clang frontend, OpenMP support, and RVV-specific clang directives provided by SiFive.
Given the limited information currently available on RVV and its support in modern compilers, this book fills a crucial gap. RVV introduces a unique approach to vectorization—Vector Length Agnostic (VLA) vectorization—which stands out from the fixed vectors of x86 and the runtime-defined, yet fixed, ARM-based SVE and SVE2 extensions.
Readers will gain an understanding of RVV-specific VLA-based vectorization support in LLVM-based compilers, which are still under development. The book also provides early insights into the ongoing support for RVV in LLVM.
What You'll Learn
- Gain foundational knowledge of RISC-V and the RVV extension.
- Learn design and implementation of LLVM vectorizers.
- Learn to optimize performance with RVV-specific clang directives.
- Explore the unique Vector Length Agnostic (VLA) vectorization.
- Discover the differences between RVV and other vector extensions.
Who This Book Is For
- For the engineers, who would like to get more info about RISC-V in general and RISC-V Vectorextension particularly.
- For the developers, trying to get the performance using RVV.
- For LLVM compiler developers, trying or learn more about vectorization support in LLVM.4.
- For the students, who learn new about RISC- V, its extensions, interested in compiler development.
DOWNLOAD:
https://rapidgator.net/file/dc4c61bd1d931433bf4e1f3c23a4721e/Bataev_A._LLVM_Compiler_for_RISC-V_Architecture._A_Unique_Approach...2026.rar
https://nitroflare.com/view/7C4C16085C7C08C/Bataev_A._LLVM_Compiler_for_RISC-V_Architecture._A_Unique_Approach...2026.rar
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