International audienceEnergy-efficiency is one of the most challenging design issues in both embedded and high-performance computing domains. The aim is to reduce as much as possible the energy consumption of considered systems while providing them with the best computing performance. Finding an adequate solution to this problem certainly requires a cross-disciplinary approach capable of addressing the energy/performance trade-off at different system design levels. In this paper, we present an empirical impact analysis of the integration of Spin Transfer Torque Magnetic Random Access Memory (STT-MRAM) technologies in multicore architectures when applying some existing compiler optimizations. For that purpose, we use three well-established a...
In recent times, various challenges have been encountered in the design and development of SRAM cach...
Magnetic memory technologies are very promising candidates to be universal memory due to its good sc...
While emerging non-volatile memories are a promising low power design solution for modernarchitectur...
International audienceEnergy-efficiency is one of the most challenging design issues in both embedde...
Modern architectures adopt large on-chip cache memory hierarchies with more than two levels. While t...
International audienceMemories are currently a real bottleneck to design high speed and energy-effic...
Spin transfer torque magnetic RAM (STT-MRAM) technology is one of the most promising alternative for...
International audienceStatic random access memory (SRAM) is the most commonly employed semiconductor...
Energy efficiency has become one of the primary considerations in the designs of cyber-physical syst...
Power consumption is becoming one of the most important constraints in the VLSI field in nano-meter ...
Spin-transfer torque RAMs (STT-RAMs) have been studied as a promising alternative to SRAMs in emergi...
Abstract—In this paper, we analyze the energy dissipation in spin-torque-transfer random access memo...
In the recent times, various challenges are being encountered during SRAM cache design and developme...
International audienceThe most widely used embedded memory technology, SRAM (Static Random Access Me...
In recent times, various challenges have been encountered in the design and development of SRAM cach...
Magnetic memory technologies are very promising candidates to be universal memory due to its good sc...
While emerging non-volatile memories are a promising low power design solution for modernarchitectur...
International audienceEnergy-efficiency is one of the most challenging design issues in both embedde...
Modern architectures adopt large on-chip cache memory hierarchies with more than two levels. While t...
International audienceMemories are currently a real bottleneck to design high speed and energy-effic...
Spin transfer torque magnetic RAM (STT-MRAM) technology is one of the most promising alternative for...
International audienceStatic random access memory (SRAM) is the most commonly employed semiconductor...
Energy efficiency has become one of the primary considerations in the designs of cyber-physical syst...
Power consumption is becoming one of the most important constraints in the VLSI field in nano-meter ...
Spin-transfer torque RAMs (STT-RAMs) have been studied as a promising alternative to SRAMs in emergi...
Abstract—In this paper, we analyze the energy dissipation in spin-torque-transfer random access memo...
In the recent times, various challenges are being encountered during SRAM cache design and developme...
International audienceThe most widely used embedded memory technology, SRAM (Static Random Access Me...
In recent times, various challenges have been encountered in the design and development of SRAM cach...
Magnetic memory technologies are very promising candidates to be universal memory due to its good sc...
While emerging non-volatile memories are a promising low power design solution for modernarchitectur...