200G Compact Solution
Built for performance on an epic scale with 100% packet capture and analysis of network data at 200G.
The Compact 200G SmartNIC NT200A01 provides full packet capture and analysis of network data at 200G with zero packet loss. Use cutting-edge network acceleration technology to add real-time line rate performance to your application.
For any link speed at any time
PLUG & PLAY
Out of the box solution
Accelerate your application
Multiple FPGA SmartNICs in one server
Synchronize multiple servers
Multiple speeds in one server
More powerful server usage
Key Napatech SmartNIC features
200G Compact Solution Features
Full line-rate packet capture
Multi-port packet sequence
Multi-port packet sequence and merge
Napatech FPGA SmartNICs typically provide multiple ports. Ports are usually paired, with one port receiving upstream packets and another port receiving downstream packets. Since these two flows going in different directions need to be analyzed as one, packets from both ports must be merged into a single analysis stream. Napatech FPGA SmartNICs can sequence and merge packets received on multiple ports in hardware using the precise time stamps of each Ethernet frame. This is highly efficient and offloads a significant and costly task from the analysis application.
There is a growing need for analysis appliances that are able to monitor and analyze multiple points in the network, and even provide a network-wide view of what is happening. Not only does this require multiple FPGA SmartNICs to be installed in a single appliance, but it also requires that the analysis data from all ports on every accelerator be correlated.
With the Napatech Software Suite, it is possible to sequence and merge the analysis data from multiple FPGA SmartNICs into a single analysis stream. The merging is based on the nanosecond precision time stamps of each Ethernet frame, allowing a time-ordered merge of individual data streams.
Intelligent Multi-CPU distribution
Modern servers provide unprecedented processing power with multi-core CPU implementations. This makes standard servers an ideal platform for appliance development. But, to fully harness the processing power of modern servers, it is important that the analysis application is multi-threaded and that the right Ethernet frames are provided to the right CPU core for processing. Not only that, but the frames must be provided at the right time to ensure that analysis can be performed in real time.
Napatech Multi-CPU distribution is built and optimized from our extensive knowledge of server architecture, as well as real life experience from our customers.
Napatech FPGA SmartNICs ensure that identified flows of related Ethernet frames are distributed in an optimal way to the available CPU cores. This ensures that the processing load is balanced across the available processing resources, and that the right frames are being processed by the right CPU cores.
With flow distribution to multiple CPU cores, the throughput performance of the analysis application can be increased linearly with the number of cores, up to 128. Not only that, but the performance can also be scaled by faster processing cores. This highly flexible mechanism enables many different ways of designing a solution and provides the ability to optimize for cost and/or performance.
Napatech FPGA SmartNICs support different distribution schemes that are fully configurable:
- Distribution per port: all frames captured on a physical port are transferred to the same CPU or a range of CPU cores for processing
- Distribution per traffic type: frames of the same protocol type are transferred to the same CPU or a range of CPU cores for processing
- Distribution by flows: frames with the same hash value are sent to the same CPU or a range of CPU cores for processing
- Combinations of the above
Hardware Time Stamp
- 2 Windows formats with 10-ns or 100-ns resolution
- Native UNIX format with 10-ns resolution
- 2 PCAP formats with 1-ns or 1000-ns resolution
Optimum Cache Utilization
On-Board Packet Buffering
Napatech FPGA SmartNICs provide on-board memory for buffering of Ethernet frames. Buffering assures guaranteed delivery of data, even when there is congestion in the delivery of data to the application. There are three potential sources of congestion: the PCI interface, the server platform, and the analysis application.
PCI interfaces provide a fixed bandwidth for transfer of data from the SmartNIC to the application. This limits the amount of data that can be continuously transferred from the network to the application. For example, a 16-lane PCIe Gen3 interface can transfer up to 115 Gbps of data to the application. If the network speed is 2×100 Gbps, a burst of data cannot be transferred over the PCIe Gen3 interface in real time, since the data rate is twice the maximum PCIe bandwidth. In this case, the onboard packet buffering on the Napatech SmartNIC can absorb the burst and ensure that none of the data is lost, allowing the frames to be transferred once the burst has passed.
Servers and applications can be configured in such a way that congestion can occur in the server infrastructure or in the application itself. The CPU cores can be busy processing or retrieving data from remote caches and memory locations, which means that new Ethernet frames cannot be transferred from the SmartNIC.
In addition, the application can be configured with only one or a few processing threads, which can result in the application being overloaded, meaning that new Ethernet frames cannot be transferred. With onboard packet buffering, the Ethernet frames can be delayed until the server or the application is ready to accept them. This ensures that no Ethernet frames are lost and that all the data is made available for analysis when needed.
IP fragment handling
IP fragmentation occurs when larger Ethernet frames need to be broken into several fragments in order to be transmitted across the network. This can be due to limitations in certain parts of the network, typically when GTP tunneling protocols are used. Fragmented frames are a challenge for analysis applications, as all fragments must be identified and potentially reassembled before analysis can be performed. Napatech FPGA SmartNICs can identify fragments of the same frame and ensure that these are associated and sent to the same CPU core for processing. This significantly reduces the processing burden for analysis applications.
For network security purposes, different traffic scenarios need to be recreated and simulated to toughen the infrastructure. The packets also need to be replayed to understand delays and disruptions caused by traffic bursts/peaks to improve Quality of Service (QoS). With Napatech FPGA SmartNICs, it is easy to setup and specify the test scenario to replay the same PCAP files from real network events at 10G, 40G and 100G link speeds.
Access control and authentication solutions can now implement full line rate solutions, that can cope with small packets, with a SmartNIC that does robust packet delivery at high network loads. Session control propels traffic in and out of the SmartNIC, at low latency (<5us), while simultaneously copying a subset to the host CPU for analysis. With the session control feature, inline use cases can benefit from low latency at speeds 1-100G.
Get highest precision timestamping for traffic that needs to be redistributed to multiple network devices. Napatech FPGA SmartNICs systems can forward and/or split traffic captured on a single tapping point to a cluster of servers for processing, without using additional equipment. This is achieved by the Napatech FPGA SmartNICs acting as both Smart Taps and packet capture devices and is apt for multi-box solutions with single tapping points. This feature eliminates the need to implement expensive SmartTaps, time stamping switches, packet brokers and other time sync components.
CPU socket load balancer
CPU socket load balancer
Further enhance your CPU utilization with the CPU Socket Load Balancer capability offered by Napatech NT40E3 FPGA SmartNICs. Improve CPU performance by up to 30% per server for 4x10G analysis with Napatech FPGA SmartNICs that can efficiently distribute traffic to 2 CPU sockets, making the packets available to multiple analysis threads on both CPU sockets, simultaneously. This frees up CPU resources needed for copying data between the two sockets and eliminates the need for expensive QPI bus transfers.
Accelerate your time-to-market and reduce risk
Napatech Software Suite provides an efficient migration path by allowing you to mix and match ports and speeds. An advanced cooling design assures the required airflow while sensors monitor voltage, power, and temperature.
A common API is provided for all Napatech FPGA SmartNICs allowing plug-and-play operation. An intuitive, easy-to-learn, yet powerful programming language is also provided to allow dynamic, on-the-fly configuration of filtering and intelligent multi-CPU distribution on Napatech FPGA SmartNICs.
Used across industries
Detect Advanced Persistent Threats (APT) and other breaches to your network at 2x100G speeds – no activity goes unnoticed.
Across industries, cyber assaults are accumulating at alarming rates. Hackers are constantly refining their tactics and repeatedly circumventing static defenses.
To identify any suspicious activity on your network, you need full visibility at all times. Even a marginal fraction of information lost can potentially compromise the safety of your business. Who has been on your network, what have they done, and when exactly did they do it? A myriad of intelligent security solutions are available to help you answer these questions – but to deliver the needed insights, they need fully reliable data. And with network speeds advancing to 100G, the challenge of attaining reliable data is firmly growing.
With the Napatech Compact 2 x 100G accelerator, we help you ensure that no data is lost and no activity goes unnoticed. Napatech provides guaranteed delivery of network data, and supply all the information needed for effective forensic analysis in real-time, even at speeds up to 100G. This means a much shorter response time, improved mitigation and ultimately a reinforced security.
With the increasing number of telecom carriers migrating to 100G solutions, the need to continually upgrade network performance is growing. But monitoring and analyzing 2 x 100G of communication brings certain challenges. The common approach requires a comprehensive system of numerous 10G lines connected to a range of appliances – but this escalates both complexity and cost.
The compact 2 x 100G accelerator from Napatech enables direct analysis of 100G with just a single server. It merges upstream and downstream data so specific information can be delivered directly to the right CPU core even for fragmented traffic and GTP tunnels. This lowers the processing load on the CPUs and enables the application to efficiently analyze the target data in 1U form factor servers.
With the compact 2 x 100G accelerator, applications will be able to monitor performance and analyze quality of experience even at 100G. This enables telecom operators to improve quality, while better managing the bandwidth challenges posed by rich media applications.
Cloud and data center
Maintaining performance while enhancing services to accommodate 100G and beyond is fundamental to the long-term viability of cloud and data center businesses. Data center managers are further challenged to retain the lowest possible CAPEX and OPEX.
With the compact 2 x 100G accelerator, Napatech is helping the industry to tackle these challenges. Because of its compact design, this solution enables 2 x 100G applications in 1U server platforms, thus saving rack space and cutting costs while maintaining integrity and performance.
With its intuitive plug and play features, this solution can be seamlessly integrated and significantly accelerate time-to-market, even for advanced Deep Packet Inspection (DPI) and netflow based applications. As Napatech FPGA SmartNICs provide the freedom to mix and match ports and speeds, customers can continually scale their solutions to accommodate the ever-changing market dynamics.
With the colossal growth of web-based applications and cloud services, users are demanding greater access to data at faster speeds. In the era of 100G, network operators are in continuous pursuit of more effective monitoring and analysis solutions to help them boost performance. But even the best solutions cannot deliver without completely reliable data.
The compact 2 x 100G accelerator guarantees quick and accurate data delivery even at 100G. Traffic on the two 100G ports is timestamped with nanosecond precision and delivered to the network application in the right order – a huge benefit for the analysis of network traffic. This enables network solutions to instantly and effectively identify and remediate any performance issues – and ultimately helps to optimize infrastructure, increase network uptime and reduce the number of man-hours required to identify any issues.
Ultimate tech specs
|TECH SPECS||NT200A01-SCC & NT200A01-NEBS|
|Network Interfaces||• IEEE standard: IEEE 802.3 100 Gbps Ethernet support|
• Network interface: 2 × QSFP28 ports
|Supported Optical Transceivers||• Supported QSFP28 modules: 100GBASE-SR4 and 100GBASE-LR4|
|Performance||• Data rate: 2 × 100 Gbps|
• Typical CPU load: < 5%
|Hardware Time Stamp||• Resolution: 1 ns|
• Stratum 3 compliant TCXO
|Time Formats||• PCAP-ns/-µs|
• UNIX 10 ns
|Time Synchronization||• SMA interface for PPS|
|Pluggable Options for Time Synchronization||• RJ45 100/1000BASE-T interface for future IEEE1588 PTP support|
|Host Interface and Memory||• Bus type: 16-lane 8 GT/s PCIe Gen3*|
• 12 GB onboard DDR4 RAM
• Flash: Support for two boot images
• Built-in thermal protection
|Statistics||• RMON1 counters plus jumbo frame counters per port|
• Frame and byte counters per color (filter) and per host buffer
• Counter sets always delivered as a consistent time-stamped snapshot
|Environment for NT200A01-SCC||• Operating temperature: 0 °C to 45 °C (32 °F to 113 °F)|
• Operating humidity: 20% to 80%
|Environment for NT200A01-NEBS||• Operating temperature: –5 °C to 55 °C (23 °F to 131 °F) measured around the SmartNIC|
• Operating humidity: 5% to 85%
• Altitude: < 1,800 m
• Airflow: >= 2.5 m/s
|OS Support||• Linux|
|Software||• Napatech API for high performance and advanced features|
• SDK tools included in source code for debugging and prototyping and as application examples
|Physical Dimensions||• ½-length and full-height PCIe|
• Full-height PCIe
|Regulatory Approvals and Compliances||• PCI-SIG®|
• NEBS level 3
• cURus (UL)