Aiming to solve the low utilization and high operational cost in current data centers and the diversified resource requirements for different application types, we propose and investigate what we believe to be a novel rack-scale disaggregated optical data center network (RDON). Different types of hardware resources (i.e., CPU, memory, and storage) are deployed in standalone resource pools of the RDON. The RDON architecture encompasses nanosecond distributed fast optical switches for the low latency and high bandwidth interconnects between the computing and memory nodes, while electrical packet switches are utilized to support the traffic of latency insensitivity and low bandwidth between memory nodes and storage nodes. By replacing the onbo...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
To solve the issues of low resource utilization and performance bottleneck in current server-centric...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
To solve the issues of low resource utilization and performance bottleneck in current server-centric...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...