The ISRO Inertial Systems Unit (IISU) in Thiruvananthapuram initiated the development of a 64-bit RISC-V-based controller and ...

IIT Madras develops indigenous Shakti semiconductor chip for ISRO, marking a milestone in Make in India efforts.

New Delhi: Indian Institute of Technology (IIT) Madras and ISRO have developed an indigenous microprocessor for space ...

IIT Madras and ISRO develop the SHAKTI microprocessor, an indigenous chip for space applications, enhancing command, control, ...

For the uninitiated, RISC-V is an open-source, royalty-free instruction set that anyone can implement without paying licensing fees. It's different from the x86 chips from Intel ...

IIT Madras and ISRO developed and tested the SHAKTI-based IRIS chip for aerospace applications, promoting indigenized ...

IIT Madras and the Indian Space Research Organisation developed and successfully booted the indigenous RISCV Controller for Space Application semiconductor chip, advancing India's 'Atmanirbhar Bharat' ...

IIT Madras and ISRO have collaboratively developed the SHAKTI microprocessor for space applications. This indigenous chip, based on RISC-V architecture and backed by the Ministry of Electronics, aims ...

IIT Madras and ISRO collaborate to develop SHAKTI-based semiconductor chip for indigenous microprocessor products with RISC-V technology.

Collaboration milestone addresses key pain points of typical design verification, the open silicon ecosystem organisation, ...

Madras and ISRO have developed an indigenous microprocessor for space applications which can be used in command and control systems and other critical functions in outer space. The SHAKTI ...

(GLOBE NEWSWIRE) -- lowRISC C.I.C., the open silicon ecosystem organisation, today announced the addition of formal ...