HPE 717491-B21 Getting Started Guide
HPE 570SFP+
Ethernet Adapters
Accelerates high frequency trading
Data sheet
HPE Ethernet dual-port
10G Ethernet SFP+
Onload server adapters
The HPE Ethernet 570SFP+ adapter is
designed to address issues facing data
center managers today. Equipped to handle
increasing application loads of the latest
multi-core processors, it delivers superior
throughput and low latency, with minimal CPU
load for the consolidation and deployment of
high-density servers. The 570SFP+ supports
data networking with concurrent support of
iSCSI and NAS traic—while remaining true
to the need for cost-eective, power-eicient,
and high-performance network I/O.
Data sheet
Page 2
Ideal for financial services
industry
HPE 10GbE Server Adapters Optimized
for Low-Latency, High-Performance
Applications HPE 570SFP+ server adapters
with Solarflare’s OpenOnload are optimized
to provide the performance demanded
by high-frequency trading and other
high-performance financial services
applications. While other vendors rely on
third-party software stacks, Hewlett Packard
Enterprise delivers a complete, integrated,
fully tested, and fully supported solution for
financial services application acceleration.
Lowest latency at highest
message rates
HPE 570SFP+ accelerates TCP traic,
delivering the lowest TCP latency. This
accelerates orders to exchanges or data
transmitted reliably to other parties,
enhancing overall performance. The capability
also enables a single high-performance
networking solution to be used for receiving
feeds and other crucial data using UDP, and
transmitting orders, confirmations, and other
latency-critical data using TCP.
Complete application
acceleration solution
You want the highest message rates
possible with the lowest latency. But you
don’t want to give up predictable, consistent
performance for your most demanding
applications. Based on industry standards
and fully compatible with existing applications
and APIs the HPE 570SFP+ delivers just that,
achieving accelerated performance without
application modifications, without propriety
or double-ended protocols, and without
specialized networks.
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