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- PF_RING ZC - Intel/Mellanox 10/40/100 Gbit [Linux]
PF_RING ZC - Intel/Mellanox 10/40/100 Gbit [Linux]
Out of stock
SKU | 10-40-gbit-pf-ring-ZC-intel |
---|---|
Status | Enabled |
PF_RING ZC license (per port) for 10/40/100 Gbit Intel and Mellanox (ConnectX 5/6) adapters. It includes 5 days installation support and one year of updates
PF_RING™
High-speed packet capture, filtering and analysis.
PF_RING™ is a new type of network socket that dramatically improves the packet capture speed, and that’s characterized by the following properties:
- Available for Linux kernels 2.6.32 and newer.
- No need to patch the kernel: just load the kernel module.
- 10 Gbit Hardware Packet Filtering using commodity network adapters
User-space ZC (new generation DNA, Direct NIC Access) drivers for extreme packet capture/transmission speed as the NIC NPU (Network Process Unit) is pushing/getting packets to/from userland without any kernel intervention. Using the 10Gbit ZC driver you can send/received at wire-speed at any packet sizes. PF_RING ZC library for distributing packets in zero-copy across threads, applications, Virtual Machines. - Device driver independent.
Support of Accolade, Exablaze, Endace, Fiberblaze, Inveatech, Mellanox, Myricom/CSPI, Napatech, Netcope and Intel (ZC) network adapters. - Kernel-based packet capture and sampling.
- Libpcap support (see below) for seamless integration with existing pcap-based applications.
- Ability to specify hundred of header filters in addition to BPF.
- Content inspection, so that only packets matching the payload filter are passed.
- PF_RING™ plugins for advanced packet parsing and content filtering.
If you want to know about PF_RING™ internals or for the User’s Manual visit the Documentation section.
Who needs PF_RING™?
Basically everyone who has to handle many packets per second. The term ‘many’ changes according to the hardware you use for traffic analysis. It can range from 80k pkt/sec on a 1.2GHz ARM to 14M pkt/sec and above on a low-end 2.5GHz Xeon. PF_RING™ not only enables you to capture packets faster, it also captures packets more efficiently preserving CPU cycles. Just to give you some figures you can see how fast nProbe, a NetFlow v5/v9 probe, can go using PF_RING™, or have a look at the tables below.
10 Gigabit tests performed on a low-end Xeon 2.5 Ghz: