Shared tightly coupled data memories are key architectural elements for building multi-core clusters in programmable accelerators and embedded systems, as they provide a convenient shared memory abstraction while avoiding cache coherence overheads. The performance of these memories largely depends on the architecture of the interconnect used between processing elements (PEs) and memory banks. The advent of three-dimensional (3D) technology has provided new opportunities to increase design modularity and reduce latency and manufacturing cost. In this study, the authors propose two 3D network architectures: C-logarithmic interconnect (LIN) and Distributed logarithmic interconnect (D-LIN) (designed in synthesisable RTL), which allow modular st...
3-D integrated circuits (3-D ICs) offer a promising solution to overcome the scaling limitations of ...
L2 memory, serving multiple clusters of tightly coupled processors, is well-suited for 3D integratio...
The objective of this thesis is to optimize the uncore of 3D many-core architectures. More specifica...
Shared tightly coupled data memories are key architectural elements for building multi-core clusters...
none3noIn this paper we propose two synthesizable 3D network architectures: C-LIN and D-LIN, which a...
Shared L1 memories are of interest for tightlycoupled processor clusters in programmable accelerator...
International audienceShared L1 memories are of interest for tightly-coupled processor clusters in p...
none5Shared L1 memories are of interest for tightly-coupled processor clusters in programmable accel...
The performance of most digital systems today is limited by the interconnect latency between logic a...
Large required size, and tolerance to latency and variations in memory access time make L2 memory a ...
As Moore’s Law slows down, new integration technologies emerge, such as 3D integration, silicon inte...
3-D integrated circuits (3-D ICs) offer a promising solution to overcome the scaling limitations of ...
The main aim of this thesis is to examine the advantages of 3D stacking applied to microprocessors a...
Abstract—This paper demonstrates a fully functional hard-ware and software design for a 3D stacked m...
none4Shared L1 memory is an interesting architectural option for building tightly-coupled multi-core...
3-D integrated circuits (3-D ICs) offer a promising solution to overcome the scaling limitations of ...
L2 memory, serving multiple clusters of tightly coupled processors, is well-suited for 3D integratio...
The objective of this thesis is to optimize the uncore of 3D many-core architectures. More specifica...
Shared tightly coupled data memories are key architectural elements for building multi-core clusters...
none3noIn this paper we propose two synthesizable 3D network architectures: C-LIN and D-LIN, which a...
Shared L1 memories are of interest for tightlycoupled processor clusters in programmable accelerator...
International audienceShared L1 memories are of interest for tightly-coupled processor clusters in p...
none5Shared L1 memories are of interest for tightly-coupled processor clusters in programmable accel...
The performance of most digital systems today is limited by the interconnect latency between logic a...
Large required size, and tolerance to latency and variations in memory access time make L2 memory a ...
As Moore’s Law slows down, new integration technologies emerge, such as 3D integration, silicon inte...
3-D integrated circuits (3-D ICs) offer a promising solution to overcome the scaling limitations of ...
The main aim of this thesis is to examine the advantages of 3D stacking applied to microprocessors a...
Abstract—This paper demonstrates a fully functional hard-ware and software design for a 3D stacked m...
none4Shared L1 memory is an interesting architectural option for building tightly-coupled multi-core...
3-D integrated circuits (3-D ICs) offer a promising solution to overcome the scaling limitations of ...
L2 memory, serving multiple clusters of tightly coupled processors, is well-suited for 3D integratio...
The objective of this thesis is to optimize the uncore of 3D many-core architectures. More specifica...