Engineering:Mobile PCI Express Module
Mobile PCI Express Module | |
Reference design of a first generation MXM-II card for 35 mm GPU | |
No. of devices | 1 |
---|---|
Style | Serial |
External interface | no |
A Mobile PCI Express Module (MXM) is an interconnect standard for GPUs (MXM Graphics Modules) in laptops using PCI Express created by MXM-SIG. The goal was to create a non-proprietary, industry standard socket, so one could easily upgrade the graphics processor in a laptop, without having to buy a whole new system or relying on proprietary vendor upgrades.
Generations
Smaller graphics modules can be inserted into larger slots, but type I and II heatsinks will not fit type III and above or vice versa.
The Alienware m5700 platform uses a heatsink that will fit Type I, II, & III cards without modification.
MXM 3.1 was released in March 2012 and added PCIe 3.0 support.[1][2]
First generation modules are not compatible with second generation (MXM 3) modules and vice versa. First generation modules I to IV are fully backwards compatible.
MXM Type |
Width | Length | Pins | Module Compatibility |
Thermal Compatibility |
Max. Power |
Max. GPU size [3] |
---|---|---|---|---|---|---|---|
MXM-I | 70 mm | 68 mm | 230 | I | I | 18 W | 35 × 35 mm |
MXM-II | 73 mm | 78 mm | 230 | I, II | II | 35 W | 35 × 35 mm |
MXM-III (HE) | 82 mm | 100 mm | 230 (232) | I, II, III | I, II, III | 75 W | 40 × 40 mm |
MXM-IV (Deprecated) | 82 mm | 117 mm | 230 | I, II, III, IV | I, II, III, IV |
MXM Type |
Width | Length | Module Compatibility |
Thermal Compatibility |
Max. Power |
GPU memory bus |
---|---|---|---|---|---|---|
MXM-A | 82 mm | 70 mm | A | A | 55 W | 64-bit or 128-bit |
MXM-B | 82 mm | 105 mm | A, B | A, B | 200 W | 256-bit |
Specification
MXM is no longer freely supplied by Nvidia but it is controlled by the MXM-SIG controlled by Nvidia. Only corporate clients are granted access to the standard. The MXM 2.1 specification is widely available.[citation needed]
List of MXM cards
MXM 3.x cards
Vendor | Name | Released | MXM Type |
GPU | Architecture | Core config[lower-alpha 1] | TFLOPS (FP32) |
TDP | Dimensions |
---|---|---|---|---|---|---|---|---|---|
AMD | FirePro M5800 | 2010-03 | Type-A | Madison XT | Terascale 2 | 400:20:8 | 0.52 | 26 W | 80 × 70 mm |
FirePro M5950 | 2011-01 | Whistler XT | 480:24:8 | 0.69 | 35 W | ||||
FirePro M4000[4] | 2012-06 | Chelsea XT GL | GCN 1 | 512:32:16 | 0.69 | 33 W | |||
FirePro M5100 | 2013-10 | Venus XT | 640:40:16 | ||||||
FirePro M6100 | Type-B | Saturn XT GL | GCN 2 | 768:48:16 | 82 × 105 mm | ||||
FirePro W5130M | 2014-08 | Type-A | Tropo LE | GCN 1 | 512:32:16 | 1.0 | 35 W | 80 × 70 mm | |
FirePro W5170M | Tropo XT | 640:40:16 | 1.1 | 45 W | |||||
FirePro W6150M | 2015-11 | Type-B | Saturn XT GL | GCN 2 | 768:48:16 | 2.0 | 100 W | 82 × 105 mm | |
FirePro S4000X | 2014-08 | Type-A | Venus XT | GCN 1 | 640:40:16 | 1.0 | 45 W | 80 × 70 mm | |
FirePro S7100X | 2016-05 | Type-B | Amethyst XT | GCN 3 | 2048:128:32 | 3.0 | 100 W | 82 × 105 mm | |
Radeon Pro WX 4130 Mobile | 2017-03 | Type-A | Baffin LE | GCN 4 | 640:40:16 | 1.4 | 45 W | 82 × 70 mm | |
Radeon Pro WX 4150 Mobile[5] | Baffin PRO | 896:56:16 | 1.9 | ||||||
Radeon Pro WX 4170 Mobile | Type-B | Baffin XT | 1024:64:16 | 2.5 | 60 W | 82 × 105 mm | |||
Radeon Embedded E6465 | 2015-10 | Type-A | Caicos | Terascale 2 | 60:8:4 | 0.2 | 28 W | 80 × 70 mm | |
Radeon Embedded E8860 | Cape Verde XT | GCN 1 | 640:40:16 | 0.8 | 37 W | ||||
Radeon Embedded E8870[6] | Type-B | Bonaire Pro | GCN 2 | 768:48:16 | 1.4 | 75 W | 82 × 105 mm | ||
Radeon Embedded E8950 | Tonga XT | GCN 3 | 2048:128:32 | 3.0 | 95 W | ||||
Radeon Embedded E9172[7] | 2017-10 | Type-A | Polaris 12 (Lexa) | GCN 4 | 512:32:16 | 1.2 | 35 W | 82 × 70 mm | |
Radeon Embedded E9174 | 512:32:16 | 1.2 | 50 W | ||||||
Radeon Embedded E9260[8] | 2016-09 | Baffin PRO | 896:56:16 | 2.2 | 50 W | ||||
Radeon Embedded E9550[9] | Type-B | Ellesmere XT | 2304:144:32 | 5.8 | 95 W | 82 × 105 mm | |||
Nvidia | Tesla M6 | 2015-11 | Type-B | GM204 | Maxwell | 1536:96:48 | 3.0 | 100 W | 82 × 105 mm |
Quadro K610 Mobile | 2013-07 | Type-A | GK208 | Kepler | 192:16:8 | 0.4 | 30 W | 80 × 70 mm | |
Quadro K1100 Mobile | GK107 | 384:32:16 | 0.5 | 45 W | |||||
Quadro K2100 Mobile | GK106 | 576:48:16 | 0.7 | 55 W | |||||
Quadro K3100 Mobile | Type-B | GK104 | 768:64:32 | 1.1 | 75 W | 82 × 105 mm | |||
Quadro K5100 Mobile | 1536:128:32 | 2.4 | 100 W | ||||||
Quadro M520 Mobile[10] | 2017-01 | Type-A | GM108 | Maxwell | 384:16:8 | 0.8 | 25 W | 80 × 70 mm | |
Quadro M620 Mobile[11] | GM107 | 512:32:16 | 1.0 | 30 W | |||||
Quadro M1000M Mobile | 2015-08 | 512:32:16 | 1.0 | 40 W | |||||
Quadro M1200M Mobile[12] | 2017-01 | 640:40:16 | 1.4 | 45 W | |||||
Quadro M2000M Mobile | 2015-12 | 640:40:16 | 1.4 | 55 W | |||||
Quadro M2200M Mobile[13] | 2017-01 | GM206 | 1024:64:32 | 2.1 | 55 W | ||||
Quadro M3000M Mobile | 2015-08 | Type-B | GM204 | 1024:64:32 | 2.1 | 75 W | 82 × 105 mm | ||
Quadro M4000M Mobile | 1280:80:64 | 2.5 | 100 W | ||||||
Quadro M5000M Mobile | 1536:96:64 | 3.0 | 100 W | ||||||
Quadro P1000 Mobile | 2017-02 | Type-A | GP107 | Pascal | 512:32:16 | 1.6 | 40 W | 80 × 70 mm | |
Quadro P2000 Mobile | 2019-02 | GP106 | 1152:72:32 | 3.0 | 75 W | ||||
Quadro P3000 Mobile[14] | 2017-01 | Type-B | GP104 | 1280:80:32 | 3.1 | 75 W | 82 × 105 mm | ||
Quadro P3200 Mobile | 2018-02 | 1792:112:64 | 5.5 | 75 W | |||||
Quadro P4000 Mobile[15] | 2017-01 | 1792:112:64 | 4.4 | 100 W | |||||
Quadro P4200 Mobile | 2018-02 | 2304:144:64 | 7.6 | 100 W | |||||
Quadro P5000 Mobile[16] | 2017-01 | 2048:128:64 | 6.2 | 100 W | |||||
Quadro P5200 Mobile | 2018-02 | 2560:160:64 | 8.9 | 100 W | |||||
Quadro T1000 Mobile | 2019-05 | Type-A | TU117 | Turing | 896:56:32 | 2.6 | 50 W | 82 × 70 mm | |
GeForce GTX 965M[17] | 2016-01 | Type-A | GM204 | Maxwell | 1024:64:32 | 2.4 | 75 W | 80 × 70 mm | |
GeForce GTX 965M | 2014-10 | Type-B | 1024:64:32 | 2.4 | 75 W | 82 × 105 mm | |||
GeForce GTX 970M | 2.7 | 75 W | |||||||
GeForce GTX 980M | 3.2 | 100 W | |||||||
GeForce GTX 980 | 2015-09 | 4.4 | 180 W | 83 × 115 mm | |||||
GeForce GTX 980 | 200 W | 102.6 × 115 mm | |||||||
GeForce GTX 1050 Mobile | 2017-01 | Type-A | GP107 | Pascal | 640:60:16 | 1.9 | 75 W | 82 × 70 mm | |
GeForce GTX 1050 Ti Mobile | 768:48:2 | 2.4 | 75 W | 82 × 70 mm | |||||
GeForce GTX 1060 Mobile (Clevo) | 2017-05 | Type-B | GP106 | 4.4 | 100 W | 100 × 124 mm | |||
GeForce GTX 1060 Mobile (MSI) | 4.3 | 78 W | 82 × 105 mm | ||||||
GeForce GTX 1070 Mobile (Clevo) | GP104 | 6.7 | 150 W | 100 × 124 mm | |||||
GeForce GTX 1070 Mobile (MSI) | 115 W | 94 × 105 mm | |||||||
GeForce GTX 1080 Mobile (Clevo) | 9.1 | 190 W | 100 × 124 mm | ||||||
GeForce GTX 1080 Mobile "Type 1" (MSI GT73VR) | 200 W | Unknown | |||||||
GeForce GTX 1080 Mobile "Type 2" (MSI GT83) | 150 W | 94 × 105 mm | |||||||
GeForce RTX 2060 Mobile (Clevo) | 2019-01 | Type-B | TU106 | Turing | 4.6 | 80 W | 100 × 124 mm | ||
GeForce RTX 2070 Mobile (Clevo) | 6.6 | 115 W | |||||||
GeForce RTX 2080 Mobile (Clevo) | TU104 | 9.4 | 150 W | ||||||
GeForce RTX 3000 Mobile | 2019-05 | TU106 | 1920:120:64 | 5.3 | 80 W | 82 × 105 mm | |||
GeForce RTX 4000 Mobile | TU104 | 2560:160:64 | 8.0 | 110 W | |||||
Quadro RTX 5000 Mobile | 3072:192:64 | 10.9 | 110 W |
Other uses
The Qseven computer-on-module form factor uses a MXM-II connector, while the SMARC computer-on-module form factor uses a MXM 3 connector. Both implementations are not in any way compatible with the MXM standard.[citation needed]
Notes
References
- ↑ "MXM Standard 3.1 is the new one (Up from 3.0)" (in en-US). NotebookReview. http://forum.notebookreview.com/threads/mxm-standard-3-1-is-the-new-one-up-from-3-0.650077/.
- ↑ "MXM Graphics Module". http://www.mxm-sig.org/main.cfm?action=document&doc=2E5AD5E5-A858-B5C6-7A99960920654801.
- ↑ Klaus Hinum (2012-05-26). "Notebook Video Card Upgrade / Replacement". Notebook Check. http://www.notebookcheck.net/Upgrade-Replace-a-Notebook-Video-Card.3236.0.html.
- ↑ "AMD FirePro M4000" (in en). TechPowerUp. https://www.techpowerup.com/gpudb/1677/firepro-m4000.
- ↑ Radeon™ PRO WX 4150 (Mobile)
- ↑ Processing Performance, Power Efficiency, and Cost Effectiveness AMD
- ↑ Optimal Balance of Performance and Power Efficiency AMD
- ↑ "AMD E9260". https://www.amd.com/Documents/high-performance-gpu-product-brief.pdf.
- ↑ "AMD E9950". https://www.amd.com/Documents/ultra-high-performance-gpu-product-brief.pdf.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2919/quadro-m520-mobile.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2920/quadro-m620-mobile.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2921/quadro-m1200-mobile.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2922/quadro-m2200-mobile.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2923/quadro-p3000-mobile.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2924/quadro-p4000-mobile.
- ↑ "TechPowerUp" (in en). https://www.techpowerup.com/gpudb/2925/quadro-p5000-mobile.
- ↑ "NotebookCheck" (in en). https://www.notebookcheck.net/Nvidia-GeForce-GTX-965M-2016-Refresh-N16E-GR-Review.158192.0.html.
External links
- MXM-SIG
- Nearly complete list of Acer laptops implementing MXM
- Initial MXM 3.0 technical brief
- 3.1 Electromechanical specification
Original source: https://en.wikipedia.org/wiki/Mobile PCI Express Module.
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