TY - GEN
T1 - P4Net
T2 - 10th International Conference on Computer and Communication Systems, ICCCS 2025
AU - Gan, Xiaoai
AU - Chi, Cheng
AU - Zhang, Heyao
AU - Hou, Xindi
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - The emergence of compute-intensive applications, such as 3D rendering and real-time image analysis, require col-laboration of network and computation for optimal performance. However, existing network solutions fail to achieve on-demand task steering, resulting in poor resource utilization. To address this challenge, this paper introduce P4Net, a novel network-layer design leveraging the Programming Protocol-independent Packet Processor (P4) programmable data plane to enable optimal computation task steering through three key innovations. Firstly, P4Net incorporates the computation-oriented service identifier (CoSI), which uses a hierarchical structure to support fine-grained task descriptions and resource matching. Secondly, a computation-oriented forwarding mechanism is proposed to enable statefu session. Thirdly, P4Net adopts fine-grained ser-vice matching for on-demand and dynamic task steering. To implement P4Net, a prototype system is built in a practical WAN environment. Experimental results demonstrate that P4Net reduces communication latency, achieves line-rate forwarding, and maintains high system resilience under network failures.
AB - The emergence of compute-intensive applications, such as 3D rendering and real-time image analysis, require col-laboration of network and computation for optimal performance. However, existing network solutions fail to achieve on-demand task steering, resulting in poor resource utilization. To address this challenge, this paper introduce P4Net, a novel network-layer design leveraging the Programming Protocol-independent Packet Processor (P4) programmable data plane to enable optimal computation task steering through three key innovations. Firstly, P4Net incorporates the computation-oriented service identifier (CoSI), which uses a hierarchical structure to support fine-grained task descriptions and resource matching. Secondly, a computation-oriented forwarding mechanism is proposed to enable statefu session. Thirdly, P4Net adopts fine-grained ser-vice matching for on-demand and dynamic task steering. To implement P4Net, a prototype system is built in a practical WAN environment. Experimental results demonstrate that P4Net reduces communication latency, achieves line-rate forwarding, and maintains high system resilience under network failures.
KW - Computation-oriented communication
KW - P4
KW - dynamic traffic steering
KW - stateful communication
UR - https://www.scopus.com/pages/publications/105011962599
U2 - 10.1109/ICCCS65393.2025.11069693
DO - 10.1109/ICCCS65393.2025.11069693
M3 - Conference contribution
AN - SCOPUS:105011962599
T3 - 10th International Conference on Computer and Communication Systems, ICCCS 2025
SP - 797
EP - 802
BT - 10th International Conference on Computer and Communication Systems, ICCCS 2025
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 18 April 2025 through 21 April 2025
ER -