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Packet parsing is the basic operation performed at all points of the network infrastructure. Modern networks impose challenging requirements on the performance and configurability of packet parsing modules, however the high-speed parsers often use very large chip area. We propose novel architecture of pipelined packet parser, which in addition to high throughput (over 100 Gb/s) offers also low latency...
With the ongoing shift of network services to the application layer also the monitoring systems focus more on the data from the application layer. The increasing speed of the network links, together with the increased complexity of application protocol processing, require a new way of hardware acceleration. We propose a new concept of hardware acceleration for flexible flow-based application level...
This demo demonstrates results of a joint research project of CESNET and INVEA-TECH focused on 100 GbE network flow monitoring using FPGA. It shows, to the best of our knowledge, the first flow monitoring setup capable of handling fully saturated 100 G Ethernet line. We present COMBO-CG card that provides accurate timestamps for high-resolution traffic monitoring. The card is complemented by fast...
Current hardware acceleration cores for network traffic processing are often well optimized for one particular task and therefore provide high level of hardware acceleration. But for many applications, such as network traffic monitoring and security, it is also necessary to achieve rapid development cycle to provide fast response to security threats.We propose and evaluate a new concept of hardware...
Current high-speed network monitoring systems focus more and more on the data from the application layers. Flow data is usually enriched by the information from HTTP, DNS and other protocols. The increasing speed of the network links, together with the time consuming application protocol parsing, require a new way of hardware acceleration. Therefore we propose a new concept of hardware acceleration...
Rapidly growing speed and complexity of computer networks impose new requirements on fast lookup structures which are utilized in many networking applications (SDN, firewalls, NATs, etc.). We propose a novel lookup concept based on the well-known cuckoo hashing, which can achieve good memory utilization, supplemented by a binary search tree for offloading the colliding keys and supporting LPM lookup...
Packet parsing is among basic operations that are performed at all points of a network infrastructure. Modern networks impose challenging requirements on the performance and configurability of packet parsing modules. However, high-speed parsers often use a significant amount of hardware resources. We propose a novel architecture of a pipelined packet parser for FPGA, which offers low latency in addition...
We propose a novel approach to the computation of the CRC functions, commonly used for bit error checking purposes when handling binary data. This approach is designed for general hashing purposes in FPGA, for which the CRCs are usable as well. The method is suitable for applications which use parallel inputs of fixed size and require high throughput, such as hash tables. We employ the DSP blocks...
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