In this paper, we propose two hypercube-based, off-chip interconnect architectures, called 3D-interconnects, to communicate between processing elements and memory modules located on network linecards. Our main goal is to increase the throughput of the memory system since most currently deployed linecard designs reach their maximum transfer rate. Moreover, line rates are constantly increasing while at the same time more data and functionality are embedded in each packet. The 3D-interconnect architectures allow multiple packet processing elements on a linecard to access multiple memory modules. The novelty of the proposed interconnects is their application and implementation as off-chip interconnects on the linecard board. Our interconnects i...
Using on-chip interconnection networks in place of ad-hoc global wiring structures the top level wir...
International audienceThis paper presents an architectural study of a scalable system-level intercon...
As Moore’s Law slows down, new integration technologies emerge, such as 3D integration, silicon inte...
In this paper, we propose two hypercube-based, off-chip interconnect architectures, called 3D-interc...
In this paper, we propose two off-chip interconnect architectures, called 3D-interconnects, to commu...
Deep layer processing and increasing line rates present a memory challenge to processor-memory commu...
Deep layer processing and increasing line rates present a memory challenge to processor-memory commu...
In this work, we present off-chip communications architectures for line cards to increase the throug...
In this paper, we propose a 3D bus architecture as a processor-memory interconnection system to incr...
In this work, we propose a visual, custom-designed, event-driven interconnect simulation framework t...
In this work, we propose a visual, custom-designed, event-driven interconnect simulation framework t...
Network line, cards are experiencing ever increasing line rates, random data bursts, and limited spa...
In this paper, we present a 3D-mesh architecture which is utilized as a processor-memory interconnec...
Network line cards are experiencing ever increas-ing line rates, random data bursts, and limited spa...
In this paper, we propose a packet-based, off-chip, multi-processor/memory simulation framework to m...
Using on-chip interconnection networks in place of ad-hoc global wiring structures the top level wir...
International audienceThis paper presents an architectural study of a scalable system-level intercon...
As Moore’s Law slows down, new integration technologies emerge, such as 3D integration, silicon inte...
In this paper, we propose two hypercube-based, off-chip interconnect architectures, called 3D-interc...
In this paper, we propose two off-chip interconnect architectures, called 3D-interconnects, to commu...
Deep layer processing and increasing line rates present a memory challenge to processor-memory commu...
Deep layer processing and increasing line rates present a memory challenge to processor-memory commu...
In this work, we present off-chip communications architectures for line cards to increase the throug...
In this paper, we propose a 3D bus architecture as a processor-memory interconnection system to incr...
In this work, we propose a visual, custom-designed, event-driven interconnect simulation framework t...
In this work, we propose a visual, custom-designed, event-driven interconnect simulation framework t...
Network line, cards are experiencing ever increasing line rates, random data bursts, and limited spa...
In this paper, we present a 3D-mesh architecture which is utilized as a processor-memory interconnec...
Network line cards are experiencing ever increas-ing line rates, random data bursts, and limited spa...
In this paper, we propose a packet-based, off-chip, multi-processor/memory simulation framework to m...
Using on-chip interconnection networks in place of ad-hoc global wiring structures the top level wir...
International audienceThis paper presents an architectural study of a scalable system-level intercon...
As Moore’s Law slows down, new integration technologies emerge, such as 3D integration, silicon inte...