News
Qualcomm acquires Ventana Micro Systems, deepening RISC-V CPU expertise - telecomtv.com
Abstract
Qualcomm has strategically acquired Ventana Micro Systems to bolster its expertise in designing high-performance RISC-V CPUs. This acquisition signals a major commitment by Qualcomm to the open-standard instruction set architecture (ISA), moving
News
Qualcomm acquires ventana micro systems deepening RISC-V CPU expertise - Yole Group
Originally published on Google News - RISC-V
Qualcomm acquires ventana micro systems deepening RISC-V CPU expertise Yole Group
News
Qualcomm takes RISC on Arm alternative with Ventana acquisition - theregister.com
Abstract
Qualcomm has acquired Ventana Micro Systems, marking a significant strategic investment aimed at developing alternatives to the prevalent Arm architecture. This major acquisition leverages Ventana’s specialized expertise in designing high-performance RISC-V
News
Qualcomm Acquires Ventana Micro Systems, Deepening RISC-V CPU Expertise - TechPowerUp
Originally published on Google News - RISC-V
Qualcomm Acquires Ventana Micro Systems, Deepening RISC-V CPU Expertise TechPowerUp
News
Qualcomm Acquires RISC-V Chip Designer Ventana To Boost CPU Efforts - CRN Magazine
Abstract
Qualcomm has strategically acquired Ventana, a specialized designer of high-performance RISC-V chips. This acquisition is intended to significantly accelerate and enhance Qualcomm's internal CPU development initiatives. The move reinforces Qualcomm&
News
ISOLDE Project Demonstrates Advancements in European Open Source RISC-V for Automotive, Space, and IoT - MundoGEO
Abstract
The ISOLDE project has successfully demonstrated significant advancements in open-source RISC-V technology developed within Europe. This initiative focuses on creating robust, independent computing solutions specifically tailored for high-reliability applications. Key target sectors
RISC-V
The Final Verification Frontier: How We Battle-Hardened RISC-V for Space
Abstract
Breker Verification Systems partnered with Frontgrade Gaisler to battle-harden the NOEL-V fault-tolerant RISC-V core, ensuring its resilience against the extreme cosmic radiation and EMI found in space environments. This effort required advancing
Research
Efficient Timing Prediction and Optimization Using Derivable Gradient Boosting Machine Model at Placement Stage
Abstract
This paper presents a novel approach for electronic design automation (EDA) focusing on efficient timing closure during the physical design flow. It introduces a framework utilizing a Derivable Gradient Boosting Machine (D-GBM)
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