The CCR1009 is a powerful Ethernet router based on the cutting edge TILERA 9 core CPU.
CCR1009-8G-1S-1S+ comes with 2GB of RAM, eight Gigabit Ethernet ports (Ether1-4 are in a Switch group), one SFP port and one SFP+ port with 10G support (SFP module not included).
CCR1009-8G-1S-1S+ model have dual power supplies built in for redundancy (if one power line fails, the other one will take over automatically).
Also, CCR1009-8G-1S-1S+ supports a Smart card, to store your private key for use in all features that support Certificate based authentication.SFP+ port supports SFP (1.25G) modules as well.
|CPU nominal frequency||1.2 GHz|
|CPU core count||9|
|Size of RAM||2 GB|
|10/100/1000 Ethernet ports||8|
|Number of USB ports||1|
|Supported input voltage||14 V - 57 V|
|PCB temperature monitor||Yes|
|CPU temperature monitor||Yes|
|Tested ambient temperature||-20C .. +60C|
|Max Power consumption||35W|
|USB slot type||microUSB type AB|
|Serial port||RS232 + Header|
|Storage size||128 MB|
Performance test results
|CCR1009-8G-1S-1S+||Tile 9 core all port test with SFP+|
|Mode||Configuration||1518 byte||512 byte||64 byte|
|Bridging||none (fast path)||974.0||11,828.3||2,817.0||11,538.4||10,491.1||5,371.4|
|Bridging||25 bridge filter rules||974.0||11,828.3||1,390.0||5,693.4||1,447.6||741.2|
|Routing||none (fast path)||974.0||11,828.3||2,817.0||11,538.4||8,217.1||4,207.2|
|Routing||25 simple queues||974.0||11,828.3||1,803.0||7,385.1||1,947.2||997.0|
|Routing||25 ip filter rules||680.4||8,262.8||870.1||3,563.9||878.7||449.9|
- All tests are done with Xena Networks specialized test equipment (XenaBay),and done according to RFC2544 (Xena2544)
- Max throughput is determined with 30+ second attempts with 0,1% packet loss tolerance in 64, 512, 1518 byte packet sizes
- Values in Italic indicate that max throughput was reached without maxing out CPU, but because board interface configuration was maxed out
- Test results show device maximum performance, and are reached using mentioned hardware and software configuration, different configurations most likely will result in lower results