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Autonomous wireless sensor nodes are creating a great opportunity for non-volatile memories as, very often, those systems are recovering their energy from their surrounding environment. Those systems require low leakage and data backup when the circuit is sporadically turned off. We propose, in this paper, volatile and non-volatile asynchronous circuits using UTBB FDSOI specificities to minimize leakage...
This paper addresses the power reduction techniques for the ultra-low power integrated circuits. We propose to implement non-volatile asynchronous circuits which will have a quasi-zero leakage consumption, almost instant back-up and wake-up time and will be robust to unstable supply environments. This paper presents the implementation of the non-volatile C-element and Half-Buffer, based on hybrid...
The recent advent of spin transfer torque (STT) has shed a new light on MRAM with the promises of much improved performances and greater scalability to very advanced technology nodes. As a result, MRAM is now viewed as a credible solution for stand-alone and embedded applications where the combination of non-volatility, speed and endurance is key. Whereas the technology is nearing maturity for DRAM...
The combination of non-volatility, fast access time and endurance in MRAM technology paves the path toward an universal memory. Although an expanding attention is given to two-terminal Magnetic Tunnel Junctions (MTJ) based on Spin-Transfer Torque (STT) switching as the potential candidate for future memories, its reliability is significantly decreased because of the common writing/reading path. Three-terminal...
Infrastructures to provide access to custom integrated hardware manufacturing facilities are important because they allow students and researchers to access professional facilities at a reasonable cost, and they allow companies to access small volume production, otherwise difficult to obtain directly from manufacturers. This paper is reviewing the most recent developments at CMP like the introduction...
Many medical and biological applications require custom integrated hardware. Infrastructures for the design of CMOS and MEMS hardware allow the education and commercialization at a low cost and in a short time. This paper is reviewing the most recent developments at CMP for the manufacturing of ICs and MEMS. These custom hardware vehicles allow to target many medical and biological applications. Examples...
Infrastructures to provide access to custom integrated hardware manufacturing facilities are important because they allow students and researchers to access professional facilities at a reasonable cost, and they allow companies to access small volume production, otherwise difficult to obtain directly from manufacturers. This paper is reviewing the most recent developments at CMP like the introduction...
Infrastructures to provide access to custom integrated hardware manufacturing facilities are important because they allow students and researchers to access professional facilities at a reasonable cost, and they allow companies to access small volume production, otherwise difficult to obtain directly from manufacturers. This paper is reviewing the most recent developments at CMP like the introduction...
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