Memory bandwidth has been one of the most critical system performance bottlenecks. As a result, the HMC (Hybrid Memory Cube) has recently been proposed to improve DRAM bandwidth as well as energy efficiency. In this paper, we explore different system interconnect designs with HMCs. We show that processor-centric network architectures cannot fully utilize processor bandwidth across different traffic patterns. Thus, we propose a memory-centric network in which all processor channels are connected to HMCs and not to any other processors as all communication between processors goes through intermediate HMCs. Since there are multiple HMCs per processor, we propose a distributor-based network to reduce the network diameter and achieve lower laten...
For data dominated applications, power consumption and memory bandwidth bottlenecks can be significa...
Efficient data motion has been key in high performance computing almost since the first electronic c...
Thesis (Ph. D.)--University of Rochester. Department of Computer Science, 2017.Power dissipation and...
Hybrid memory cube (HMC) has promised to improve bandwidth, power consumption, and density for the n...
Abstract—Hybrid Memory Cube (HMC) has promised to improve bandwidth, power consumption, and density ...
The Hybrid Memory Cube is an emerging main memory technology that leverages advances in 3D fabricati...
The Hybrid Memory Cube (HMC) is an emerging main memory technology that leverages advances in 3D fab...
High fabrication cost per bit and thermal issues are the main reasons that prevent architects from u...
MasterIn many-core systems, network size has been increasingly enlarged and they require wider bandw...
Abstract-- A new class of interconnection networks is proposed for processor to memory communication...
As the number of cores per die increases, be they processors, memory blocks, or custom accelerators,...
GPUs are being widely used to accelerate different workloads and multi-GPU systems can provide highe...
Network-on-chip (NoC) has become a critical shared resource in the emerging Chip Multiprocessor (CMP...
Parallel computing has long been an area of research interest because exploiting parallelism in diff...
The objective of this thesis is to optimize the uncore of 3D many-core architectures. More specifica...
For data dominated applications, power consumption and memory bandwidth bottlenecks can be significa...
Efficient data motion has been key in high performance computing almost since the first electronic c...
Thesis (Ph. D.)--University of Rochester. Department of Computer Science, 2017.Power dissipation and...
Hybrid memory cube (HMC) has promised to improve bandwidth, power consumption, and density for the n...
Abstract—Hybrid Memory Cube (HMC) has promised to improve bandwidth, power consumption, and density ...
The Hybrid Memory Cube is an emerging main memory technology that leverages advances in 3D fabricati...
The Hybrid Memory Cube (HMC) is an emerging main memory technology that leverages advances in 3D fab...
High fabrication cost per bit and thermal issues are the main reasons that prevent architects from u...
MasterIn many-core systems, network size has been increasingly enlarged and they require wider bandw...
Abstract-- A new class of interconnection networks is proposed for processor to memory communication...
As the number of cores per die increases, be they processors, memory blocks, or custom accelerators,...
GPUs are being widely used to accelerate different workloads and multi-GPU systems can provide highe...
Network-on-chip (NoC) has become a critical shared resource in the emerging Chip Multiprocessor (CMP...
Parallel computing has long been an area of research interest because exploiting parallelism in diff...
The objective of this thesis is to optimize the uncore of 3D many-core architectures. More specifica...
For data dominated applications, power consumption and memory bandwidth bottlenecks can be significa...
Efficient data motion has been key in high performance computing almost since the first electronic c...
Thesis (Ph. D.)--University of Rochester. Department of Computer Science, 2017.Power dissipation and...