Design and Implementation of IP-based iSCSI Offload Engine on an FPGA

Amila Akagic, H. Amano
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引用次数: 1

Abstract

The IP-based storage systems often require bandwidth intensive access to storage devices, thus they exhibit high CPU utilization and low throughput when executed in a principally software implementation. This is especially evident for multi-Gbps networks where the impact of computational overhead is so pronounced that the current state of the art processors cannot take advantage of the capacity of the network. In this paper we propose new iSCSI Offload Engine architecture for high data rate storage networking. Based on our analysis of open source Open-iSCSI initiator, we offload the most computationally intensive and the most executed functions in a common case scenario, while other functions are implemented in a modified Open-iSCSI initiator on a general purpose processor. Our architecture overcomes the performance limitations imposed by a single processor which runs on 15x higher operating frequency than our accelerator. It exhibits very low CPU utilization of approximately 3% on the host CPU, which is 10–15x reduction compared with software implementation. The maximum transmission throughput is 7.81 Gbps, while reception throughput is 7.34 Gbps, which is 2 times speedup over software. The new architecture also shows comparable performance with Chelsio T110 ASIC-based HBA, and has more flexibility.
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基于ip的iSCSI分流引擎的FPGA设计与实现
基于ip的存储系统通常需要对存储设备进行带宽密集型访问,因此,当主要在软件实现中执行时,它们表现出高CPU利用率和低吞吐量。这对于多gbps网络尤其明显,因为计算开销的影响非常明显,以至于当前的先进处理器无法利用网络的容量。在本文中,我们提出了新的iSCSI卸载引擎架构,用于高数据速率存储网络。基于我们对开源open - iscsi启动器的分析,我们在一个常见的情况下卸载了计算最密集和执行最多的功能,而其他功能则在一个通用处理器上修改的open - iscsi启动器中实现。我们的架构克服了单个处理器的性能限制,它的运行频率比我们的加速器高15倍。它在主机CPU上的CPU利用率非常低,大约为3%,与软件实现相比降低了10 - 15倍。最大传输吞吐量为7.81 Gbps,接收吞吐量为7.34 Gbps,比软件提速2倍。新架构也显示出与切尔西T110基于asic的HBA相当的性能,并且具有更大的灵活性。
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IPSJ Transactions on System LSI Design Methodology
IPSJ Transactions on System LSI Design Methodology Engineering-Electrical and Electronic Engineering
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