Nvidia GTX Titan X Benchmarks
#1
Exclamation 
We got our first shipment of GTX Titan X GPUs today! Been playing around with them for the past 8 hours, and holy fuck, this card does not disappoint!

https://twitter.com/jmgosney/status/590670001021054978

  • 60% faster than AMD Radeon R9 290X at stock clocks – up to 85% faster with +225 Mhz OC.
  • Measured maximum 273W draw from the wall (100% load, 100% fan, +225 Mhz OC). PSU is 86% efficient, so card itself is drawing ~ 234W. That's about 17% less than the R9 290X.
  • First single GPU to break 35 GH/s on NTLM. Can actually break 40 GH/s with +275 Mhz OC, but it's not stable for all algorithms at this clockrate.
  • Max observed GPU temperature is 64C at 100% fan (22.7C ambient temp, no external air flow)
  • Hands-down the best GPU you can buy for Hashcat right now!

[Image: CDIVOi1W8AA1inM.jpg:large]

[Image: CDIVOZjWgAA456s.jpg:large]

[Image: CDIVOtLWEAAon01.jpg:large]

[Image: CDJ7PFFW8AAB0_m.jpg:large]


Benchmarks -- Stock Clocks

Code:
cudaHashcat v1.36 starting in benchmark-mode...

Device #1: GeForce GTX TITAN X, 12287MB, 1215Mhz, 24MCU

Hashtype: MD4
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 35227.1 MH/s

Hashtype: MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 16904.6 MH/s

Hashtype: SHA1
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5301.7 MH/s

Hashtype: SHA256
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2113.0 MH/s

Hashtype: SHA384
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   663.0 MH/s

Hashtype: SHA512
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   655.6 MH/s

Hashtype: SHA-3(Keccak)
Workload: 128 loops, 256 accel

Speed.GPU.#1.:   471.7 MH/s

Hashtype: RipeMD160
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  3546.1 MH/s

Hashtype: Whirlpool
Workload: 512 loops, 32 accel

Speed.GPU.#1.:   140.3 MH/s

Hashtype: GOST R 34.11-94
Workload: 512 loops, 64 accel

Speed.GPU.#1.:   197.8 MH/s

Hashtype: SAP CODVN B (BCODE)
Workload: 1024 loops, 64 accel

Speed.GPU.#1.:  1264.9 MH/s

Hashtype: SAP CODVN F/G (PASSCODE)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   623.8 MH/s

Hashtype: SAP CODVN H (PWDSALTEDHASH) iSSHA-1
Workload: 1024 loops, 16 accel

Speed.GPU.#1.:  4078.9 kH/s

Hashtype: Lotus Notes/Domino 5
Workload: 256 loops, 32 accel

Speed.GPU.#1.:   177.1 MH/s

Hashtype: Lotus Notes/Domino 6
Workload: 256 loops, 32 accel

Speed.GPU.#1.: 57800.4 kH/s

Hashtype: Lotus Notes/Domino 8
Workload: 1024 loops, 64 accel

Speed.GPU.#1.:   459.7 kH/s

Hashtype: SHA-1(Base64), nsldap, Netscape LDAP SHA
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5306.9 MH/s

Hashtype: SSHA-1(Base64), nsldaps, Netscape LDAP SSHA
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5285.0 MH/s

Hashtype: descrypt, DES(Unix), Traditional DES
Workload: 128 loops, 64 accel

Speed.GPU.#1.:   143.7 MH/s

Hashtype: md5crypt, MD5(Unix), FreeBSD MD5, Cisco-IOS MD5
Workload: 1000 loops, 32 accel

Speed.GPU.#1.:  7110.1 kH/s

Hashtype: sha256crypt, SHA256(Unix)
Workload: 1024 loops, 4 accel

Speed.GPU.#1.:   310.2 kH/s

Hashtype: sha512crypt, SHA512(Unix)
Workload: 1024 loops, 8 accel

Speed.GPU.#1.:   112.5 kH/s

Hashtype: bcrypt, Blowfish(OpenBSD)
Workload: 32 loops, 2 accel

Speed.GPU.#1.:    14440 H/s

Hashtype: LM
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2145.2 MH/s

Hashtype: NTLM
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 34969.3 MH/s

Hashtype: DCC, mscash
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  9440.8 MH/s

Hashtype: NetNTLMv1-VANILLA / NetNTLMv1+ESS
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 14208.6 MH/s

Hashtype: NetNTLMv2
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  1098.4 MH/s

Hashtype: Kerberos 5 AS-REQ Pre-Auth etype 23
Workload: 256 loops, 32 accel

Speed.GPU.#1.:   183.6 MH/s

Hashtype: EPiServer 6.x < v4
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  3843.6 MH/s

Hashtype: EPiServer 6.x > v4
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  1936.7 MH/s

Hashtype: MSSQL(2000)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  5380.4 MH/s

Hashtype: MSSQL(2005)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  5414.1 MH/s

Hashtype: MSSQL(2012)
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   672.0 MH/s

Hashtype: MySQL323
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 37121.9 MH/s

Hashtype: MySQL4.1/MySQL5
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  2471.1 MH/s

Hashtype: Oracle 7-10g
Workload: 512 loops, 64 accel

Speed.GPU.#1.:   603.8 MH/s

Hashtype: Sybase ASE
Workload: 512 loops, 32 accel

Speed.GPU.#1.:   192.3 MH/s

Hashtype: Oracle 11g/12c
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5308.7 MH/s

Hashtype: PostgreSQL Challenge-Response Authentication (MD5)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  4180.2 MH/s

Hashtype: MySQL Challenge-Response Authentication (SHA1)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  1570.2 MH/s

Hashtype: OSX v10.4, v10.5, v10.6
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  3845.7 MH/s

Hashtype: OSX v10.7
Workload: 128 loops, 256 accel

Speed.GPU.#1.:   657.4 MH/s

Hashtype: OSX v10.8+
Workload: 1024 loops, 2 accel

Speed.GPU.#1.:     8160 H/s

Hashtype: Android PIN
Workload: 1024 loops, 16 accel

Speed.GPU.#1.:  4055.7 kH/s

Hashtype: Android FDE <= 4.3
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   566.2 kH/s

Hashtype: scrypt
Workload: 1 loops, 64 accel

Speed.GPU.#1.:   130.8 kH/s

Hashtype: Cisco-PIX MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 10657.2 MH/s

Hashtype: Cisco-ASA MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 10988.6 MH/s

Hashtype: Cisco-IOS SHA256
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2108.0 MH/s

Hashtype: Cisco $8$
Workload: 1024 loops, 8 accel

Speed.GPU.#1.:    46826 H/s

Hashtype: Cisco $9$
Workload: 1 loops, 4 accel

Speed.GPU.#1.:     4788 H/s

Hashtype: Juniper IVE
Workload: 1000 loops, 32 accel

Speed.GPU.#1.:  7173.9 kH/s

Hashtype: Citrix NetScaler
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  4849.4 MH/s

Hashtype: DNSSEC (NSEC3)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  2301.8 MH/s

Hashtype: WPA/WPA2
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   279.2 kH/s

Hashtype: IKE-PSK MD5
Workload: 512 loops, 128 accel

Speed.GPU.#1.:  1198.4 MH/s

Hashtype: IKE-PSK SHA1
Workload: 512 loops, 128 accel

Speed.GPU.#1.:   395.3 MH/s

Hashtype: Password Safe v2
Workload: 1000 loops, 16 accel

Speed.GPU.#1.:   205.2 kH/s

Hashtype: Password Safe v3
Workload: 1024 loops, 16 accel

Speed.GPU.#1.:   923.8 kH/s

Hashtype: 1Password, agilekeychain
Workload: 1000 loops, 64 accel

Speed.GPU.#1.:  2263.5 kH/s

Hashtype: 1Password, cloudkeychain
Workload: 1024 loops, 2 accel

Speed.GPU.#1.:     7104 H/s

Hashtype: AIX {ssha1}
Workload: 64 loops, 128 accel

Speed.GPU.#1.: 28144.4 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES
Workload: 1024 loops, 64 accel

Speed.GPU.#1.:   820.9 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-SHA512 + AES
Workload: 1000 loops, 16 accel

Speed.GPU.#1.:   295.4 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-Whirlpool + AES
Workload: 1000 loops, 8 accel

Speed.GPU.#1.:    30266 H/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES + boot-mode
Workload: 1000 loops, 64 accel

Speed.GPU.#1.:  1636.9 kH/s

Hashtype: Office 2007
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:    93823 H/s

Hashtype: Office 2010
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:    46940 H/s

Hashtype: Office 2013
Workload: 1024 loops, 4 accel

Speed.GPU.#1.:     6816 H/s

Hashtype: MS Office <= 2003 MD5 + RC4, oldoffice$0, oldoffice$1
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   168.5 MH/s

Hashtype: MS Office <= 2003 SHA1 + RC4, oldoffice$3, oldoffice$4
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   236.2 MH/s

Hashtype: PDF 1.1 - 1.3 (Acrobat 2 - 4)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   258.4 MH/s

Hashtype: PDF 1.1 - 1.3 (Acrobat 2 - 4) + collider-mode #1
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   292.1 MH/s

Hashtype: PDF 1.1 - 1.3 (Acrobat 2 - 4) + collider-mode #2
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:  2702.9 MH/s

Hashtype: PDF 1.4 - 1.6 (Acrobat 5 - 8)
Workload: 70 loops, 256 accel

Speed.GPU.#1.: 12333.1 kH/s

Hashtype: PDF 1.7 Level 3 (Acrobat 9)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2107.8 MH/s

Hashtype: PDF 1.7 Level 8 (Acrobat 10 - 11)
Workload: 64 loops, 8 accel

Speed.GPU.#1.:        0 H/s

Hashtype: Drupal7
Workload: 1024 loops, 8 accel

Speed.GPU.#1.:    41049 H/s

Hashtype: HMAC-MD5 (key = $pass)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  1669.0 MH/s

Hashtype: HMAC-MD5 (key = $salt)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  4622.7 MH/s

Hashtype: HMAC-SHA1 (key = $pass)
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   362.5 MH/s

Hashtype: HMAC-SHA1 (key = $salt)
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   542.7 MH/s

Hashtype: HMAC-SHA256 (key = $pass)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:   402.7 MH/s

Hashtype: HMAC-SHA256 (key = $salt)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:   908.2 MH/s

Hashtype: HMAC-SHA512 (key = $pass)
Workload: 128 loops, 128 accel

Speed.GPU.#1.: 88728.4 kH/s

Hashtype: HMAC-SHA512 (key = $salt)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:   208.8 MH/s

Hashtype: IPMI2 RAKP HMAC-SHA1
Workload: 256 loops, 256 accel

Speed.GPU.#1.:  1107.5 MH/s

Hashtype: Half MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 10448.1 MH/s

Hashtype: Double MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  4662.2 MH/s

Hashtype: GRUB 2
Workload: 1024 loops, 2 accel

Speed.GPU.#1.:    29060 H/s

Hashtype: phpass, MD5(Wordpress), MD5(phpBB3), MD5(Joomla)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:  4555.8 kH/s

Hashtype: SIP digest authentication (MD5)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:  1895.7 MH/s

Hashtype: SipHash
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 20456.9 MH/s

Hashtype: Joomla < 2.5.18
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 16680.3 MH/s

Hashtype: osCommerce, xt:Commerce
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  9093.2 MH/s

Hashtype: PrestaShop
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5751.4 MH/s

Hashtype: IPB2+, MyBB1.2+
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2135.8 MH/s

Hashtype: vBulletin < v3.8.5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  4695.6 MH/s

Hashtype: PHPS
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  4654.3 MH/s

Hashtype: vBulletin > v3.8.5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2091.6 MH/s

Hashtype: SMF > v1.1
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  3849.6 MH/s

Started: Tue Apr 21 10:39:09 2015
Stopped: Tue Apr 21 11:08:29 2015


Benchmarks -- +225 Mhz OC

Code:
cudaHashcat v1.36 starting in benchmark-mode...

Device #1: GeForce GTX TITAN X, 12287MB, 1215Mhz, 24MCU

Hashtype: MD4
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 39290.7 MH/s

Hashtype: MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 18841.2 MH/s

Hashtype: SHA1
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  6175.5 MH/s

Hashtype: SHA256
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2432.1 MH/s

Hashtype: SHA384
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   753.6 MH/s

Hashtype: SHA512
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   742.2 MH/s

Hashtype: SHA-3(Keccak)
Workload: 128 loops, 256 accel

Speed.GPU.#1.:   521.7 MH/s

Hashtype: RipeMD160
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  3954.3 MH/s

Hashtype: Whirlpool
Workload: 512 loops, 32 accel

Speed.GPU.#1.:   164.7 MH/s

Hashtype: GOST R 34.11-94
Workload: 512 loops, 64 accel

Speed.GPU.#1.:   231.7 MH/s

Hashtype: SAP CODVN B (BCODE)
Workload: 1024 loops, 64 accel

Speed.GPU.#1.:  1408.5 MH/s

Hashtype: SAP CODVN F/G (PASSCODE)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   656.1 MH/s

Hashtype: SAP CODVN H (PWDSALTEDHASH) iSSHA-1
Workload: 1024 loops, 16 accel

Speed.GPU.#1.:  4587.7 kH/s

Hashtype: Lotus Notes/Domino 5
Workload: 256 loops, 32 accel

Speed.GPU.#1.:   207.4 MH/s

Hashtype: Lotus Notes/Domino 6
Workload: 256 loops, 32 accel

Speed.GPU.#1.: 67593.7 kH/s

Hashtype: Lotus Notes/Domino 8
Workload: 1024 loops, 64 accel

Speed.GPU.#1.:   517.2 kH/s

Hashtype: SHA-1(Base64), nsldap, Netscape LDAP SHA
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  6201.2 MH/s

Hashtype: SSHA-1(Base64), nsldaps, Netscape LDAP SSHA
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  6153.6 MH/s

Hashtype: descrypt, DES(Unix), Traditional DES
Workload: 128 loops, 64 accel

Speed.GPU.#1.:   165.5 MH/s

Hashtype: md5crypt, MD5(Unix), FreeBSD MD5, Cisco-IOS MD5
Workload: 1000 loops, 32 accel

Speed.GPU.#1.:  8092.6 kH/s

Hashtype: sha256crypt, SHA256(Unix)
Workload: 1024 loops, 4 accel

Speed.GPU.#1.:   357.7 kH/s

Hashtype: sha512crypt, SHA512(Unix)
Workload: 1024 loops, 8 accel

Speed.GPU.#1.:   129.1 kH/s

Hashtype: bcrypt, Blowfish(OpenBSD)
Workload: 32 loops, 2 accel

Speed.GPU.#1.:    16890 H/s

Hashtype: LM
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2463.8 MH/s

Hashtype: NTLM
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 39148.9 MH/s

Hashtype: DCC, mscash
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 10598.7 MH/s

Hashtype: NetNTLMv1-VANILLA / NetNTLMv1+ESS
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 16539.9 MH/s

Hashtype: NetNTLMv2
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  1250.6 MH/s

Hashtype: Kerberos 5 AS-REQ Pre-Auth etype 23
Workload: 256 loops, 32 accel

Speed.GPU.#1.:   214.9 MH/s

Hashtype: EPiServer 6.x < v4
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  4472.1 MH/s

Hashtype: EPiServer 6.x > v4
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  2238.3 MH/s

Hashtype: MSSQL(2000)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  6316.0 MH/s

Hashtype: MSSQL(2005)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  6269.4 MH/s

Hashtype: MSSQL(2012)
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   755.5 MH/s

Hashtype: MySQL323
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 42663.2 MH/s

Hashtype: MySQL4.1/MySQL5
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  2831.2 MH/s

Hashtype: Oracle 7-10g
Workload: 512 loops, 64 accel

Speed.GPU.#1.:   709.1 MH/s

Hashtype: Sybase ASE
Workload: 512 loops, 32 accel

Speed.GPU.#1.:   224.9 MH/s

Hashtype: Oracle 11g/12c
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  6162.7 MH/s

Hashtype: PostgreSQL Challenge-Response Authentication (MD5)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  4817.1 MH/s

Hashtype: MySQL Challenge-Response Authentication (SHA1)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  1763.7 MH/s

Hashtype: OSX v10.4, v10.5, v10.6
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  4505.4 MH/s

Hashtype: OSX v10.7
Workload: 128 loops, 256 accel

Speed.GPU.#1.:   742.1 MH/s

Hashtype: OSX v10.8+
Workload: 1024 loops, 2 accel

Speed.GPU.#1.:     9420 H/s

Hashtype: Android PIN
Workload: 1024 loops, 16 accel

Speed.GPU.#1.:  4675.5 kH/s

Hashtype: Android FDE <= 4.3
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   643.3 kH/s

Hashtype: scrypt
Workload: 1 loops, 64 accel

Speed.GPU.#1.:   147.9 kH/s

Hashtype: Cisco-PIX MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 11866.6 MH/s

Hashtype: Cisco-ASA MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 12392.5 MH/s

Hashtype: Cisco-IOS SHA256
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2429.5 MH/s

Hashtype: Cisco $8$
Workload: 1024 loops, 8 accel

Speed.GPU.#1.:    54023 H/s

Hashtype: Cisco $9$
Workload: 1 loops, 4 accel

Speed.GPU.#1.:     5024 H/s

Hashtype: Juniper IVE
Workload: 1000 loops, 32 accel

Speed.GPU.#1.:  8110.3 kH/s

Hashtype: Citrix NetScaler
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  5594.3 MH/s

Hashtype: DNSSEC (NSEC3)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  2645.4 MH/s

Hashtype: WPA/WPA2
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   317.3 kH/s

Hashtype: IKE-PSK MD5
Workload: 512 loops, 128 accel

Speed.GPU.#1.:  1369.2 MH/s

Hashtype: IKE-PSK SHA1
Workload: 512 loops, 128 accel

Speed.GPU.#1.:   464.9 MH/s

Hashtype: Password Safe v2
Workload: 1000 loops, 16 accel

Speed.GPU.#1.:   239.3 kH/s

Hashtype: Password Safe v3
Workload: 1024 loops, 16 accel

Speed.GPU.#1.:  1062.1 kH/s

Hashtype: 1Password, agilekeychain
Workload: 1000 loops, 64 accel

Speed.GPU.#1.:  2547.5 kH/s

Hashtype: 1Password, cloudkeychain
Workload: 1024 loops, 2 accel

Speed.GPU.#1.:     8338 H/s

Hashtype: AIX {ssha1}
Workload: 64 loops, 128 accel

Speed.GPU.#1.: 31682.7 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES
Workload: 1024 loops, 64 accel

Speed.GPU.#1.:   927.2 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-SHA512 + AES
Workload: 1000 loops, 16 accel

Speed.GPU.#1.:   341.5 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-Whirlpool + AES
Workload: 1000 loops, 8 accel

Speed.GPU.#1.:    34997 H/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES + boot-mode
Workload: 1000 loops, 64 accel

Speed.GPU.#1.:  1828.8 kH/s

Hashtype: Office 2007
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   106.7 kH/s

Hashtype: Office 2010
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:    53395 H/s

Hashtype: Office 2013
Workload: 1024 loops, 4 accel

Speed.GPU.#1.:     7689 H/s

Hashtype: MS Office <= 2003 MD5 + RC4, oldoffice$0, oldoffice$1
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   197.6 MH/s

Hashtype: MS Office <= 2003 SHA1 + RC4, oldoffice$3, oldoffice$4
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   276.5 MH/s

Hashtype: PDF 1.1 - 1.3 (Acrobat 2 - 4)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   302.2 MH/s

Hashtype: PDF 1.1 - 1.3 (Acrobat 2 - 4) + collider-mode #1
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:   341.6 MH/s

Hashtype: PDF 1.1 - 1.3 (Acrobat 2 - 4) + collider-mode #2
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:  3019.9 MH/s

Hashtype: PDF 1.4 - 1.6 (Acrobat 5 - 8)
Workload: 70 loops, 256 accel

Speed.GPU.#1.: 14222.6 kH/s

Hashtype: PDF 1.7 Level 3 (Acrobat 9)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2433.0 MH/s

Hashtype: PDF 1.7 Level 8 (Acrobat 10 - 11)
Workload: 64 loops, 8 accel

Speed.GPU.#1.:        0 H/s

Hashtype: Drupal7
Workload: 1024 loops, 8 accel

Speed.GPU.#1.:    45798 H/s

Hashtype: HMAC-MD5 (key = $pass)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  1942.8 MH/s

Hashtype: HMAC-MD5 (key = $salt)
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  5256.4 MH/s

Hashtype: HMAC-SHA1 (key = $pass)
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   422.6 MH/s

Hashtype: HMAC-SHA1 (key = $salt)
Workload: 256 loops, 256 accel

Speed.GPU.#1.:   620.8 MH/s

Hashtype: HMAC-SHA256 (key = $pass)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:   471.7 MH/s

Hashtype: HMAC-SHA256 (key = $salt)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:  1046.5 MH/s

Hashtype: HMAC-SHA512 (key = $pass)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:   103.8 MH/s

Hashtype: HMAC-SHA512 (key = $salt)
Workload: 128 loops, 128 accel

Speed.GPU.#1.:   243.3 MH/s

Hashtype: IPMI2 RAKP HMAC-SHA1
Workload: 256 loops, 256 accel

Speed.GPU.#1.:  1261.8 MH/s

Hashtype: Half MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 11702.4 MH/s

Hashtype: Double MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5266.1 MH/s

Hashtype: GRUB 2
Workload: 1024 loops, 2 accel

Speed.GPU.#1.:    33125 H/s

Hashtype: phpass, MD5(Wordpress), MD5(phpBB3), MD5(Joomla)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:  5156.6 kH/s

Hashtype: SIP digest authentication (MD5)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.:  2182.3 MH/s

Hashtype: SipHash
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 23051.8 MH/s

Hashtype: Joomla < 2.5.18
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 18811.3 MH/s

Hashtype: osCommerce, xt:Commerce
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 10400.1 MH/s

Hashtype: PrestaShop
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  6495.0 MH/s

Hashtype: IPB2+, MyBB1.2+
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2506.9 MH/s

Hashtype: vBulletin < v3.8.5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5302.3 MH/s

Hashtype: PHPS
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  5271.6 MH/s

Hashtype: vBulletin > v3.8.5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.:  2452.9 MH/s

Hashtype: SMF > v1.1
Workload: 512 loops, 256 accel

Speed.GPU.#1.:  4498.7 MH/s

Started: Tue Apr 21 12:17:53 2015
Stopped: Tue Apr 21 12:46:41 2015


We're waiting on more chassis to arrive to test this in the Sagitta Brutalis. We should have 8x Titan X benchmarks posted by the end of the week, but the single GPU benchmarks show that a single Sagitta Brutalis with 8x Titan X will be nearly as fast as our old 25-GPU VCL cluster combined!

Stay tuned...
Reply
#2
nice!
how you connect 8 gpu in one computer?
Reply
#3
Congratulations, Jeremi!

If the core clock during cracking process is indeed 1.215 GHz-ish, then my predictions in this thread were true.
On some algorithms, however, Titan X is performing better than expected (LM +76% vs 980).
NV did a good job by ditching FP64 and focusing solely on int performance.
Oh, and I expected Titan X to be hotter.
Reply
#4
(04-22-2015, 07:12 AM)bobva Wrote: how you connect 8 gpu in one computer?

You need a big computer Wink I mentioned a specific model in my post; Google it.


(04-22-2015, 07:45 AM)Rolf Wrote: If the core clock during cracking process is indeed 1.215 GHz-ish, then my predictions in this thread were true.

As you know, Maxwell has very aggressive dynamic frequency scaling, so the cards rarely run at a consistent clock rate. But yes, at "stock clocks" (i.e., not setting the Clock Offset), the clock mainly hover around 1127 ~ 1216 Mhz.


(04-22-2015, 07:45 AM)Rolf Wrote: On some algorithms, however, Titan X is performing better than expected (LM +76% vs 980).

Hmm, I didn't even notice that. That is indeed a healthy gain. I suspect this might have something to do with the larger memory bus since DES makes heavy use of s-boxes.


(04-22-2015, 07:45 AM)Rolf Wrote: Oh, and I expected Titan X to be hotter.

Everyone did, and I do not know why! It doesn't draw enough power for it to be as warm as everyone said it was... Maybe if you leave the fan at 20% you can heat it up?
Reply
#5
i google it and not found...
Reply
#6
(04-22-2015, 08:52 AM)bobva Wrote: i google it and not found...
You should definitely improve your Google foo. It's the very first entry you get when you search the terms. For those people who wants to know if they can afford it:

Base configuration price: 18,499 USD
Reply
#7
Comparing stock Titan X with overclocked GTX 980

Summary: Titan X at stock clocks is ~30% faster on most algorithms, the only exception is scrypt, which is slower by ~33%.
This is expected, since scrypt kernel of 980 is highly optimized, whereas the titan x kernel is very generic.

Code:
Device #1: GeForce GTX TITAN X, 12287MB, 1215Mhz, 24MCU   Device #1: GeForce GTX 980, 4095MB, 1215Mhz, 16MCU

(31.62%)                                                          
Hashtype: MD4                                             Hashtype: MD4
Speed.GPU.#1.: 35227.1 MH/s                               Speed.GPU.#*.:   26762.5 MH/s

(31.80%)                                                          
Hashtype: MD5                                             Hashtype: MD5
Speed.GPU.#1.: 16904.6 MH/s                               Speed.GPU.#*.:   12825 MH/s

(27.89%)                                                          
Hashtype: SHA1                                            Hashtype: SHA1
Speed.GPU.#1.:  5301.7 MH/s                               Speed.GPU.#*.: 4145.35 MH/s

(30.16%)                                                          
Hashtype: SHA256                                          Hashtype: SHA256
Speed.GPU.#1.:  2113.0 MH/s                               Speed.GPU.#*.: 1623.31 MH/s

(30.92%)                                                          
Hashtype: SHA512                                          Hashtype: SHA512
Speed.GPU.#1.:   655.6 MH/s                               Speed.GPU.#*.:  500.73 MH/s

(29.15%)                                                          
Hashtype: SHA-3(Keccak)                                   Hashtype: SHA-3(Keccak)
Speed.GPU.#1.:   471.7 MH/s                               Speed.GPU.#*.:  365.23 MH/s

(32.44%)                                                          
Hashtype: RipeMD160                                       Hashtype: RipeMD160
Speed.GPU.#1.:  3546.1 MH/s                               Speed.GPU.#*.: 2677.37 MH/s

(29.23%)                                                          
Hashtype: GOST R 34.11-94                                 Hashtype: GOST R 34.11-94
Speed.GPU.#1.:   197.8 MH/s                               Speed.GPU.#*.:  153.06 MH/s

(27.82%)                                                          
Hashtype: descrypt, DES(Unix), Traditional DES            Hashtype: descrypt, DES(Unix), Traditional DES
Speed.GPU.#1.:   143.7 MH/s                               Speed.GPU.#*.:   112.42 MH/s

(30.87%)                                                          
Hashtype: md5crypt, MD5(Unix), FreeBSD MD5, Cisco-IOS MD5 Hashtype: md5crypt, MD5(Unix), FreeBSD MD5, Cisco-IOS MD5
Speed.GPU.#1.:  7110.1 kH/s                               Speed.GPU.#*.: 5432.76 kH/s

(30.35%)                                                          
Hashtype: sha512crypt, SHA512(Unix)                       Hashtype: sha512crypt, SHA512(Unix)
Speed.GPU.#1.:   112.5 kH/s                               Speed.GPU.#*.:   86.3 kH/s

(31.22%)                                                          
Hashtype: bcrypt, Blowfish(OpenBSD)                       Hashtype: bcrypt, Blowfish(OpenBSD)
Speed.GPU.#1.:    14440 H/s                               Speed.GPU.#*.:  11004 H/s

(31%)                                                          
Hashtype: LM                                              Hashtype: LM
Speed.GPU.#1.:  2145.2 MH/s                               Speed.GPU.#*.: 1637.5 MH/s

(31.52%)                                                          
Hashtype: NTLM                                            Hashtype: NTLM
Speed.GPU.#1.: 34969.3 MH/s                               Speed.GPU.#*.:   26587.5 MH/s

(30%)
Hashtype: MySQL323                                        Hashtype: MySQL323
Speed.GPU.#1.: 37121.9 MH/s                               Speed.GPU.#*.: 28550 MH/s

(29.97%)                                                
Hashtype: MySQL4.1/MySQL5                                 Hashtype: MySQL4.1/MySQL5
Speed.GPU.#1.:  2471.1 MH/s                               Speed.GPU.#*.: 1901.25 MH/s

(-33.16%)                                                          
Hashtype: scrypt                                          Hashtype: scrypt
Speed.GPU.#1.:   130.8 kH/s                               Speed.GPU.#*.:  195.71 kH/s

(30.79%)                                                          
Hashtype: WPA/WPA2                                        Hashtype: WPA/WPA2
Speed.GPU.#1.:   279.2 kH/s                               Speed.GPU.#*.:  213.46 kH/s

(31.01%)                                                        
Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES      Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES
Speed.GPU.#1.:   820.9 kH/s                               Speed.GPU.#*.:  626.55 kH/s

(30.24%)                                                                                                                  
Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-Whirlpool + AES      Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-Whirlpool + AES
Speed.GPU.#1.:    30266 H/s                               Speed.GPU.#*.:   23237 kH/s

(31.33%)                                                          
Hashtype: Office 2007                                     Hashtype: Office 2007
Speed.GPU.#1.:    93823 H/s                               Speed.GPU.#*.:   71437 kH/s

(30.66%)                                                          
Hashtype: Office 2010                                     Hashtype: Office 2010
Speed.GPU.#1.:    46940 H/s                               Speed.GPU.#*.:   35925 H/s

(31.38%)                                                          
Hashtype: Office 2013                                     Hashtype: Office 2013
Speed.GPU.#1.:     6816 H/s                               Speed.GPU.#*.:    5188 H/s

(30.29%)                                                          
Hashtype: PDF 1.7 Level 3 (Acrobat 9)                     Hashtype: PDF 1.7 Level 3 (Acrobat 9)
Speed.GPU.#1.:  2107.8 MH/s                               Speed.GPU.#*.: 1617.68 MH/s
Reply
#8
@Jeremi: Thanks! And I actually wanted to ask you yesterday if there are any news on the Titan front Wink

@Rolf: great work, these comparisons are gold, we actually should have something like a database, although keeping everything in a contant testing enviroment is a pain in the darkzone.


Quote:
(04-22-2015, 07:45 AM)Rolf Wrote: Oh, and I expected Titan X to be hotter.

Everyone did, and I do not know why! It doesn't draw enough power for it to be as warm as everyone said it was... Maybe if you leave the fan at 20% you can heat it up?


Maybe there's an explanation for that. Here's a picture from a well known Hardware site, showing the back of a Titan X under full load:

[Image: 01-PCB.jpg]


As you can see the memory chips are the hottest part of the board with over 100°C. Since hashcat, especially in benchmark mode, doesn't need much memory, leaving the 12GB of the Titan X merely unused. Since years cards with GDDR5 RAM have the ability to slow/clock down their memory to save power. So the conclusion would be:

1. easy use on memory clocks most memory chips down using less energy
2. since memory chips are the hottest parts, the card runs cooler now

The Titan X has 16 more chips than the GTX 980, so there you go.

But that's just my 2ct.
Reply
#9
Well damn, and I thought I was going to be the bad kid on the block with the 8 980s I just got....

Guess I just have to start making the case for an upgrade already on next years budget.
Reply
#10
The upcoming 980Ti will use the same chip, has only 6GB of RAM (still very fine for Hashcat) and speed should be at least the same if not higher.

Next year a new kid will rock up the place named Pascal.

But I'm a bit disappointed that the Titan X is only 30% faster than the GTX 980. Do the kernels need a specific upgrade or do they run on different clock speeds? I mean the ACTUAL clock speed, not some maybe boost rate.
Reply