Certificate 1361 - NITROX XL CN15xx-NFBE FIPS Cryptographic Modules
intCertNum 1361
strVendorName Cavium Networks
strURL http://www.caviumnetworks.com
strAddress1 805E Middlefield Road
strAddress2
strAddress3
strCity Mountain View
strStateProv CA
strPostalCode 94043
strCountry 94043
strContact Michael Scruggs
strEmail Mike.Scruggs@caviumnetworks.com
strPhone 650-623-7005
strFax 650-625-9751
strContact2
strEmail2
strFax2
strPhone2
intCertNum 1361
strModuleName NITROX XL CN15xx-NFBE FIPS Cryptographic Modules
strPartNumber Hardware Versions: CN1520-VBD-04-0200, CN1510-VBD-04-0200, CN1505-VBD-04-0200, CN1520-VBD-04-0201, CN1510-VBD-04-0201 and CN1505-VBD-04-0201;
Firmware Versions: CN1520: 4.7.1(CN1520);
CN1510: 4.7.1(CN1510) and CN1505: 4.7.1(CN1505)
memModuleNotes When operated in FIPS mode
str140Version 140-2
_sp_ Security Policy   [pdf][html][txt]
_cert_ Certificate   [pdf][txt]
strPURL
strModuleType Hardware
strValidationDate 07/12/2010
intOverallLevel 3
memIndividualLevelNotes
strFIPSAlgorithms AES (Certs. #803 and #1135);
DSA (Cert. #370);
HMAC (Cert. #645);
RNG (Cert. #630);
RSA (Cert. #539);
SHS (Cert. #1056);
Triple-DES (Certs. #685 and #827);
Triple-DES MAC (Triple-DES Cert. #685, vendor affirmed)
strOtherAlgorithms DES;
RC2;
RC4;
RC5;
CAST5;
SEED;
RSA X-509;
ARIA;
MD2;
MD5;
HAS-160;
AES-MAC (AES Cert. #803;
non-compliant);
DES-MAC;
RC2-MAC;
RC5-MAC;
CAST5-MAC;
SSL3-MD5-MAC;
SSL3-SHA1-MAC;
KCDSA;
Generic-Secret;
SSL PRE-MASTER;
Diffie-Hellman;
RSA (key wrapping;
key establishment methodology provides between 112 and 150 bits of encryption strength;
non-compliant less than 112 bits of encryption strength)
strConfiguration Multi-chip embedded
memModuleDescription The Cavium Nitrox XL NFBE FIPS Cryptographic Modules are a cryptographic component of the Nitrox XL NFBE cryptographic acceleration boards that provide cryptographic key protection and acceleration for both asymmetric and symmetric encryption operations. The cryptographic module is contained in its own secure enclosure that provides physical resistance to tampering and zeroization of plaintext cryptographic material in the event the enclosure is opened.
intModuleCount 1
memAdditionalNotes
strFirstValidtionDate 07/12/10 00:00:00
strLabName Leidos
strValidationYear 2010