GTX 750 TI
#1
I bought one of those budget 750TI's since they have a of lot power for such a cheap card, thanks to the new sm_50 instructions.

It required to do some special low-level optimizations and therefore I had to rewrite some kernels first.

Upcoming oclHashcat v1.21 will ship with them. Here's the full benchmark of my Zotac 750 TI (not overclocked version):

cudaHashcat v1.21 starting in benchmark-mode...

Device #1: GeForce GTX 750 Ti, 2047MB, 1110Mhz, 5MCU

Hashtype: MD4
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 5537.8 MH/s

Hashtype: MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 3022.7 MH/s

Hashtype: SHA1
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 1065.3 MH/s

Hashtype: SHA256
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 408.5 MH/s

Hashtype: SHA512
Workload: 256 loops, 256 accel

Speed.GPU.#1.: 24332.4 kH/s

Hashtype: SHA-3(Keccak)
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 72143.3 kH/s

Hashtype: RipeMD160
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 685.1 MH/s

Hashtype: Whirlpool
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 54282.9 kH/s

Hashtype: GOST R 34.11-94
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 28068.6 kH/s

Hashtype: SAP CODVN B (BCODE)
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 176.3 MH/s

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

Speed.GPU.#1.: 140.5 MH/s

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

Speed.GPU.#1.: 26342.7 kH/s

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

Speed.GPU.#1.: 8523.7 kH/s

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

Speed.GPU.#1.: 1064.9 MH/s

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

Speed.GPU.#1.: 1058.1 MH/s

Hashtype: descrypt, DES(Unix), Traditional DES
Workload: 128 loops, 256 accel

Speed.GPU.#1.: 28989.9 kH/s

Hashtype: md5crypt, MD5(Unix), FreeBSD MD5, Cisco-IOS MD5
Workload: 1000 loops, 128 accel

Speed.GPU.#1.: 937.9 kH/s

Hashtype: sha256crypt, SHA256(Unix)
Workload: 1024 loops, 32 accel

Speed.GPU.#1.: 11370 H/s

Hashtype: sha512crypt, SHA512(Unix)
Workload: 5000 loops, 8 accel

Speed.GPU.#1.: 3552 H/s

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

Speed.GPU.#1.: 1915 H/s

Hashtype: LM
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 403.8 MH/s

Hashtype: NTLM
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 5185.9 MH/s

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

Speed.GPU.#1.: 1568.1 MH/s

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

Speed.GPU.#1.: 2223.1 MH/s

Hashtype: NetNTLMv2
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 94769.7 kH/s

Hashtype: Kerberos 5 AS-REQ Pre-Auth etype 23
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 17816.6 kH/s

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

Speed.GPU.#1.: 779.1 MH/s

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

Speed.GPU.#1.: 237.6 MH/s

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

Speed.GPU.#1.: 1052.9 MH/s

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

Speed.GPU.#1.: 1055.3 MH/s

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

Speed.GPU.#1.: 24383.3 kH/s

Hashtype: MySQL323
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 4200.7 MH/s

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

Speed.GPU.#1.: 494.3 MH/s

Hashtype: Oracle 7-10g
Workload: 512 loops, 32 accel

Speed.GPU.#1.: 54615.1 kH/s

Hashtype: Sybase ASE
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 0 H/s

Hashtype: Oracle 11g
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 1057.9 MH/s

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

Speed.GPU.#1.: 781.5 MH/s

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

Speed.GPU.#1.: 22426.7 kH/s

Hashtype: OSX v10.8 / v10.9
Workload: 35000 loops, 2 accel

Speed.GPU.#1.: 322 H/s

Hashtype: Samsung Android Password/PIN
Workload: 1024 loops, 16 accel

Speed.GPU.#1.: 677.5 kH/s

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

Speed.GPU.#1.: 1601.8 MH/s

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

Speed.GPU.#1.: 1614.9 MH/s

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

Speed.GPU.#1.: 408.3 MH/s

Hashtype: Citrix NetScaler
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 928.8 MH/s

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

Speed.GPU.#1.: 410.0 MH/s

Hashtype: WPA/WPA2
Workload: 4096 loops, 32 accel

Speed.GPU.#1.: 55423 H/s

Hashtype: IKE-PSK MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 103.9 MH/s

Hashtype: IKE-PSK SHA1
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 0 H/s

Hashtype: Password Safe SHA-256
Workload: 2048 loops, 16 accel

Speed.GPU.#1.: 147.0 kH/s

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

Speed.GPU.#1.: 449.5 kH/s

Hashtype: 1Password, cloudkeychain
Workload: 40000 loops, 2 accel

Speed.GPU.#1.: 282 H/s

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

Speed.GPU.#1.: 5858.9 kH/s

Hashtype: TrueCrypt 5.0+ PBKDF2-HMAC-RipeMD160 + AES
Workload: 2000 loops, 64 accel

Speed.GPU.#1.: 160.8 kH/s

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

Speed.GPU.#1.: 11248 H/s

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

Speed.GPU.#1.: 5898 H/s

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

Speed.GPU.#1.: 317.7 kH/s

Hashtype: Drupal7
Workload: 16384 loops, 8 accel

Speed.GPU.#1.: 1365 H/s

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

Speed.GPU.#1.: 418.1 MH/s

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

Speed.GPU.#1.: 555.2 MH/s

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

Speed.GPU.#1.: 105.4 MH/s

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

Speed.GPU.#1.: 425.0 MH/s

Hashtype: HMAC-SHA256 (key = $pass)
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 35754.3 kH/s

Hashtype: HMAC-SHA256 (key = $salt)
Workload: 512 loops, 256 accel

Speed.GPU.#1.: 80844.8 kH/s

Hashtype: HMAC-SHA512 (key = $pass)
Workload: 128 loops, 256 accel

Speed.GPU.#1.: 6093.7 kH/s

Hashtype: HMAC-SHA512 (key = $salt)
Workload: 128 loops, 256 accel

Speed.GPU.#1.: 11723.1 kH/s

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

Speed.GPU.#1.: 214.5 MH/s

Hashtype: Half MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 1874.2 MH/s

Hashtype: Double MD5
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 715.2 MH/s

Hashtype: GRUB 2
Workload: 10000 loops, 2 accel

Speed.GPU.#1.: 1127 H/s

Hashtype: phpass, MD5(Wordpress), MD5(phpBB3), MD5(Joomla)
Workload: 2048 loops, 64 accel

Speed.GPU.#1.: 866.8 kH/s

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

Speed.GPU.#1.: 3099.9 MH/s

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

Speed.GPU.#1.: 1752.6 MH/s

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

Speed.GPU.#1.: 513.7 MH/s

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

Speed.GPU.#1.: 715.4 MH/s

Hashtype: PHPS
Workload: 1024 loops, 256 accel

Speed.GPU.#1.: 714.9 MH/s

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

Speed.GPU.#1.: 501.0 MH/s

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

Speed.GPU.#1.: 781.3 MH/s
#2
Atom:
Thank you for telling us about this card and your new support in oclHashcat.
The power consumption is also low which is good for me.

from geforce webpage http://www.geforce.com/hardware/desktop-...ifications
Minimum System Power Requirement (W) 300W

I may build also a new testing system with this card.

Would be interested in some recommendations for a low cost system for maybe 3 and 4 cards?
(dont have a large budget but want more than my current 1 GPU system)

What is the power supply Wattage required?
#3
Thank you for these benchmarks, atom! I just ordered one to replace my 5850. Power consumption is so low I could run 3 of these cards in place of my old one and still save some cents.
#4
Thanks, looking forward to when it's available. I have the even cheaper non-TI card and so far have been very be happy with its performance. *Need any more beta testers?*

Gary
#5
Thanks for better support since oclHashcat v1.21. Which NVidia card can replace a AMD 280X now that you use the new sm_50 instructions? I want to replace it since AMD's Linux support is worse than NVidia's and I have some problmes indeed.

640 ALUs for the GTX 750 Ti and 55kH/s for WPA is better than a 280X (2048 cores) if it would have 640 cores: calculated it would reach 40 kH/s with 640 cores.
#6
I'd like to line out how much happier I'm with my new 750TI compared to the 5850. My random KDE/Xserver crashes stopped and my mouse pointer does not occasionally get replaced by a ~300x300px artefacts box. Games also run a lot faster on linux than with the AMD card. Screw AMD!
#7
Will lesser NVIDIA cards benefit, e.g., the GTX 560 Ti?
#8
Benefit from a proper driver: yes. Benefit from the speed improvement: no. Only SM5.0 cards.
#9
I haven't been following GPU news, so hadn't been following the progression from Fermi to Kepler to Maxwell, as usually an expensive card is the first one out. I didn't catch atom's use of the word "budget," so didn't realize that is just a $100 item.
(I also hadn't noticed that v1.21 is out, either, and that atom wrote a lot about NVIDIA catching up to AMD.)

But the GTX 750 is sort of a low-end card, even though it has more CUDA cores than my card, and runs twice as fast, yet takes a fraction of the power. Will there be a card with a lot more cores than the 750? That would be the one to buy. (Imagine one NVIDIA card with the power of 4 AMDs <grin>.)

Would that be the rumored GTX 870 and GTX 880?
#10
Yeah, the gtx880, if we can believe the rumors it have raw md5 speed a bit faster than 290x