This paper 1 discusses a defect tolerant and energy economized computing array for the DSP plane of a 3-D Heterogeneous System on a Chip. We present the J-platform, which employs coarse-grain VLSI cells with high functionality, performance, and reconfigurability. The advantages of this approach are high performance, small area and low power compared to FPGAs, and greater flexibility over ASICs. Moreover, many of the advanced algorithms, including the independent component analysis, can be systolically mapped to it. The paper discusses these coarse-grain cells in light of a new concept, namely multi-granularity, which simultaneously facilitates defect tolerance and reconfigurability. In particular, it is shown that the multipliers in these J...
In this thesis, several design, analysis and reconfiguration problems in defect-tolerant VLSI and pa...
In future nanotechnologies failure densities are predicted to be several orders of magnitude higher ...
The DeSyRe project builds on-demand adaptive, reliable Systems-on-Chips. In response to the current ...
Abstract: A 3-D Heterogeneous System on a Chip using a stack of planes has recently been proposed. W...
textAs technology continues to scale to smaller geometries and newer dimensions (3-D), with increasi...
A 3D Heterogeneous Sensor using a stacked chip is investigated. Optical Active Pixel Sensor and IR B...
New self-assembling techniques used to build nano-scale architecture prototypes have a drawback of b...
Electronics systems in deep-submicron era face many new challenges. Increased intricacy of the manuf...
Defect and fault tolerance is being studied in a 3D Heterogeneous Sensor using a stacked chip with s...
\ua9 2014 IEEE. Recent trends in semiconductor technology have dictated the constant reduction of de...
Technology scaling has progressed to enable integrated circuits with extremely high density enabling...
This thesis is a contribution at the architectural level to the improvement of fault-tolerance in ma...
Historically, consumer computing products have moved to increasingly smaller form factors, from the ...
As conventional silicon Complementary Metal-Oxide-Semiconductor (CMOS) technology continues to shrin...
This thesis examines three specific issues of defect-tolerant VLSI: (1) design and reconfiguration o...
In this thesis, several design, analysis and reconfiguration problems in defect-tolerant VLSI and pa...
In future nanotechnologies failure densities are predicted to be several orders of magnitude higher ...
The DeSyRe project builds on-demand adaptive, reliable Systems-on-Chips. In response to the current ...
Abstract: A 3-D Heterogeneous System on a Chip using a stack of planes has recently been proposed. W...
textAs technology continues to scale to smaller geometries and newer dimensions (3-D), with increasi...
A 3D Heterogeneous Sensor using a stacked chip is investigated. Optical Active Pixel Sensor and IR B...
New self-assembling techniques used to build nano-scale architecture prototypes have a drawback of b...
Electronics systems in deep-submicron era face many new challenges. Increased intricacy of the manuf...
Defect and fault tolerance is being studied in a 3D Heterogeneous Sensor using a stacked chip with s...
\ua9 2014 IEEE. Recent trends in semiconductor technology have dictated the constant reduction of de...
Technology scaling has progressed to enable integrated circuits with extremely high density enabling...
This thesis is a contribution at the architectural level to the improvement of fault-tolerance in ma...
Historically, consumer computing products have moved to increasingly smaller form factors, from the ...
As conventional silicon Complementary Metal-Oxide-Semiconductor (CMOS) technology continues to shrin...
This thesis examines three specific issues of defect-tolerant VLSI: (1) design and reconfiguration o...
In this thesis, several design, analysis and reconfiguration problems in defect-tolerant VLSI and pa...
In future nanotechnologies failure densities are predicted to be several orders of magnitude higher ...
The DeSyRe project builds on-demand adaptive, reliable Systems-on-Chips. In response to the current ...