India has developed its first indigenous 1.0 GHz, 64-bit dual-core microprocessor, DHRUV64, by C-DAC. This achievement marks a significant step towards reducing reliance on foreign suppliers for ...

The story so far: On December 15, the Ministry of Electronics and Information Technology (MEITY) announced the launch of DHRUV64, an indigenous microprocessor that it said would strengthen the ...

Mass production of microchips is the embodiment of a form of hyper-capitalism, one that is extremely demanding in terms of investment, research and energy – fields in which Europe has yet to find a ...

Abstract: The Internet of Things (IoT) refers to a pervasive presence of interconnected and uniquely identifiable physical devices. These devices' goal is to gather data and drive actions in order to ...

Abstract: We present a design of an 8-bit bit-serial rapid single-flux-quantum (RSFQ) microprocessor, which is called CORE e4, and its high-speed functionality test results. The CORE e4 is equipped ...

New Delhi: India today marks a major step in its semiconductor journey with the launch of DHRUV64, the country’s first 1.0 GHz, 64-bit dual-core microprocessor, according to an official government ...

DHRUV64 is a fully indigenous 64-bit microprocessor developed by the Centre for Development of Advanced Computing (C-DAC) under the Government of India’s Microprocessor Development Programme (MDP).

Abstract: This study investigates the impacts of radiation-induced soft errors on system-on-chips with Arm Cortex-M microprocessors. We evaluate two Cortex-M microprocessors running two applications.

Abstract: Empirical mode decomposition (EMD) is a nonlinear, data-dependent method that decomposes a nonstationary signal into a few oscillation modes, which are referred to as intrinsic mode ...

Abstract: An experimental technique is presented, which allows for spatially-resolved imaging of microprocessor power (SIMP). In a first step this method utilizes infrared (IR) thermal imaging, while ...

Abstract: We conducted the first successful demonstration of an adiabatic microprocessor based on unshunted Josephson junction (JJ) devices manufactured using a Nb/AlO x /Nb superconductor IC ...