Cisco 3524 N3K-C3524P-10G Datenbogen
Produktcode
N3K-C3524P-10G
© 2014 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.
Page 1 of 14
Data Sheet
Cisco Nexus 3548 and 3524 Switches
Cisco Nexus 3000 Series Switches Overview
The Cisco Nexus
®
3000 Series Switches are a comprehensive portfolio of 1, 10, and 40 Gigabit Ethernet switches
built from a switch-on-a-chip (SoC) architecture. Introduced in April 2011, this series of switches provides line-rate
Layer 2 and 3 performance and is suitable for top-of-the-rack (ToR) architecture. This series of switches has
established itself as a leader in high-frequency trading (HFT), high-performance computing (HPC), and big data
environments by pairing high performance and low latency with innovations in performance visibility, automation,
and time synchronization.
Cisco Nexus 3500 Platform Overview
The Cisco Nexus 3500 platform further extends the leadership of the Cisco Nexus 3000 Series by including the
innovative Cisco
®
Algorithm Boost (or Algo Boost) technology. Algo Boost technology, built into the switch
application-specific integrated circuit (ASIC), allows the Cisco Nexus 3500 platform to achieve exceptional Layer 2
and 3 switching latencies of less than 200 nanoseconds (ns). In addition, Algo Boost offers several innovations in
latency, forwarding, and performance visibility capabilities:
●
Three configurable modes for low latency
◦
Normal mode: This mode is excellent for environments needing low latency and high scalability. In this
mode, latencies as low as 250 ns can be paired with the higher of the Layer 2 and 3 scaling values listed
later in this document, in Table 6.
◦
Warp mode: For those customers with smaller environments who demand the lowest latencies possible,
warp mode consolidates forwarding operations within the switch ASIC, lowering latency by up to an
additional 20 percent compared to normal operation. In this mode, latencies as low as 190 ns can be
paired with the smaller of the Layer 2 and 3 scaling values listed later in this document, in Table 6.
◦
Warp SPAN: In some environments, a stream of traffic entering one port simply needs to be copied to a
list of outgoing ports as quickly as possible without processing or modification. The Cisco Nexus 3500
platform’s warp SPAN capability allows all traffic entering a single port on the switch to be replicated to
platform’s warp SPAN capability allows all traffic entering a single port on the switch to be replicated to
any number of destination ports at latencies as low as 50 ns.
●
Hitless Network Address Translation (NAT): In many financial trading environments, trade orders must be
sourced from the IP space of the provider, requiring NAT at the border between networks. The Cisco Nexus
3500 platform can perform NAT for IPv4 unicast routed packets without incurring any additional latency.
●
Active buffer monitoring: Even on the lowest-latency switches, data packets can incur a millisecond or more
of latency during periods of congestion. Today’s switches do not adequately inform administrators about the
of latency during periods of congestion. Today’s switches do not adequately inform administrators about the
presence of this congestion, leaving them unaware and hindered in their ability to address the conditions
causing suboptimal performance. Previous buffer utilization monitoring techniques were based entirely on
software polling algorithms with polling intervals higher than 100 ms, which can miss important congestion
events. In contrast, Algo Boost accelerates the collection of buffer utilization data in hardware, allowing
sampling intervals of 10 ns or less.