Difference between revisions of "Qualcomm"
Line 13: | Line 13: | ||
! Lithography | ! Lithography | ||
! Release date | ! Release date | ||
+ | |- | ||
+ | | [[Qualcomm Snapdragon 8 Gen 3|Snapdragon 8 Gen 3]] | ||
+ | | | ||
+ | * 1x ARM Cortex-X4 @ 3.3 GHz | ||
+ | * 5x ARM Cortex-A720 @ 3.2 GHz | ||
+ | * 2x ARM Cortex-A520 @ 2.3 GHz | ||
+ | | Adreno 750 | ||
+ | | Hexagon | ||
+ | | (200 megapixels)<br />Spectra | ||
+ | | LPDDR5X quad-channel 16-bit<br />@ 4200 MHz (67.2 GB/s) | ||
+ | | 5G<br />(10000 / 3000 Mbit/s) | ||
+ | | SM8650-AB<ref name="snapdragon 8g3 codename">[https://www.qualcomm.com/products/application/smartphones/snapdragon-8-series-mobile-platforms/snapdragon-8-gen-2-mobile-platform Snapdragon 8 Gen 2 Mobile Platform]</ref> | ||
+ | | "4 nm"<br />TSMC N4 | ||
+ | | 2023/10<ref name="snapdragon 8g3 release">[https://www.qualcomm.com/news/releases/2022/05/20/qualcomm-extends-leadership-premium-and-high-tier-android-devices Qualcomm Extends Leadership in Premium and High Tier Android Devices with Snapdragon’s Newest Powerhouse Mobile Platforms]</ref> | ||
|- | |- | ||
| [[Qualcomm Snapdragon 8 Gen 2|Snapdragon 8 Gen 2]] | | [[Qualcomm Snapdragon 8 Gen 2|Snapdragon 8 Gen 2]] | ||
Line 1,254: | Line 1,268: | ||
! Lithography | ! Lithography | ||
! Announced | ! Announced | ||
+ | |- | ||
+ | | [[Qualcomm Snapdragon X Elite|Snapdragon X Elite gen 1]] | ||
+ | | | ||
+ | * 12x Qualcomm Oryon @ 3.8 GHz | ||
+ | | (4600 GFLOPS)<br />Adreno | ||
+ | | (45 TOPs)<br />Hexagon | ||
+ | | Spectra | ||
+ | | LPDDR5x octa-channel 16-bit (136 GB/s) | ||
+ | | 5G<br />(10000 / 316 Mbit/s) | ||
+ | | | ||
+ | | "4 nm"<br />TSMC N4 | ||
+ | | 2023/10<ref name="snapdragon x elite release">[https://www.qualcomm.com/news/onq/2021/12/01/introducing-snapdragon-8cx-gen-3-compute-platform-extreme-mobile-computing Introducing the Snapdragon 8cx Gen 3 Compute Platform: extreme mobile computing experiences that deliver more than just a laptop]</ref> | ||
|- | |- | ||
| [[Qualcomm Snapdragon 8cx Gen 3|Snapdragon 8cx Gen 3]]<br />Microsoft SQ3 | | [[Qualcomm Snapdragon 8cx Gen 3|Snapdragon 8cx Gen 3]]<br />Microsoft SQ3 | ||
Line 1,260: | Line 1,286: | ||
* 4x ARM Cortex-A78 @ 2.4 GHz | * 4x ARM Cortex-A78 @ 2.4 GHz | ||
| Adreno | | Adreno | ||
− | | | + | | (29 TOPs)<br />Hexagon |
| Spectra<br />(24 megapixels) | | Spectra<br />(24 megapixels) | ||
| LPDDR4x octa-channel 16-bit<br />@ 2133 MHz (86.3 GB/s) | | LPDDR4x octa-channel 16-bit<br />@ 2133 MHz (86.3 GB/s) | ||
Line 1,272: | Line 1,298: | ||
* 4x ARM Cortex-A76 @ 3.15 GHz | * 4x ARM Cortex-A76 @ 3.15 GHz | ||
* 4x ARM Cortex-A55 @ 1.8 GHz | * 4x ARM Cortex-A55 @ 1.8 GHz | ||
− | | | + | | (2078.7 GFLOPs)<br />Adreno 680 |
− | + | | (9 TOPs)<br />Hexagon 690 | |
| Spectra 390<br />(192 megapixels) | | Spectra 390<br />(192 megapixels) | ||
| LPDDR4x octa-channel 16-bit<br />@ 2133 MHz (86.3 GB/s) | | LPDDR4x octa-channel 16-bit<br />@ 2133 MHz (86.3 GB/s) |
Revision as of 16:59, 16 October 2023
Contents
Premium
Model | CPU[1] | GPU[2] | DSP[3] | ISP[4] | RAM | Modem | Catalog number | Lithography | Release date |
---|---|---|---|---|---|---|---|---|---|
Snapdragon 8 Gen 3 |
|
Adreno 750 | Hexagon | (200 megapixels) Spectra |
LPDDR5X quad-channel 16-bit @ 4200 MHz (67.2 GB/s) |
5G (10000 / 3000 Mbit/s) |
SM8650-AB[5] | "4 nm" TSMC N4 |
2023/10[6] |
Snapdragon 8 Gen 2 |
|
Adreno 740 | Hexagon | (200 megapixels) Spectra |
LPDDR5X quad-channel 16-bit @ 4200 MHz (67.2 GB/s) |
5G (10000 / 3000 Mbit/s) |
SM8550-AB[7] | "4 nm" TSMC N4 |
2022/11[8] |
Snapdragon 8+ Gen 1 |
|
Adreno 730 | Hexagon | (200 megapixels) Spectra |
LPDDR5 quad-channel 16-bit @ 3200 MHz (51.2 GB/s) |
5G (10000 / 3000 Mbit/s) |
SM8475[9] | "4 nm" TSMC N4 |
2022/05[10] |
Snapdragon 8 Gen 1 |
|
Adreno 730 | Hexagon | (200 megapixels) Spectra |
LPDDR5 quad-channel 16-bit @ 3200 MHz (51.2 GB/s) |
5G (10000 / 3000 Mbit/s) |
SM8450[11] | "4 nm" Samsung 4LPE |
2021/12[12] |
Snapdragon 888+ |
|
Adreno 660 | (32 TOPs) Hexagon 780 |
(200 megapixels) Spectra 580 |
|
5G (7500 / 3000 Mbit/s) |
SM8350-AC[13] | "5 nm" Samsung 5LPE |
2021/06[14] |
Snapdragon 888 |
|
Adreno 660 | (26 TOPs) Hexagon 780 |
(200 megapixels) Spectra 580 |
|
5G (7500 / 3000 Mbit/s) |
SM8350[15] | "5 nm" Samsung 5LPE |
2020/12[16] |
Snapdragon 870 |
|
Adreno 650 @ 645 MHz (~1375 GFLOPS) |
Hexagon 698 (15 TOPs) |
Spectra 480 (200 megapixels) |
|
not available | SM8250-AC (870)[17] | "7 nm" TSMC N7P |
2021/01[18] |
Snapdragon 865+ |
|
Adreno 650 @ 645 MHz (~1375 GFLOPS) |
Hexagon 698 (15 TOPs) |
Spectra 480 (200 megapixels) |
|
not available | SM8250-AB (865+)[19] | "7 nm" TSMC N7P |
2020/07[20] |
Snapdragon 865 |
|
Adreno 650 @ 587 MHz (~1,250 GFLOPS) |
Hexagon 698 (15 TOPs) |
Spectra 480 (200 megapixels) |
|
not available | SM8250 (865)[21] | "7 nm" TSMC N7P |
2019/12[22] 2020/03 (available) |
Snapdragon 855+ |
|
Adreno 640 @ 675 MHz (1,037 GFLOPS) |
Hexagon 690 (7 TOPs) |
Spectra 380 (192 megapixels) |
LPDDR4X Quad-channel 16-bit @ 2133 MHz (34.13 GB/s) |
4G (Cat 20: 2000 / 316 Mbit/s) |
SM8150-AC (855+)[23] | "7 nm" TSMC N7 |
2019/07[24] |
Snapdragon 860 |
|
Adreno 640 @ 675 MHz (1,037 GFLOPS) |
Hexagon 690 (7 TOPs) |
Spectra 380 (192 megapixels) |
LPDDR4X Quad-channel 16-bit @ 2133 MHz (34.13 GB/s) |
4G (Cat 20: 2000 / 316 Mbit/s) |
SM8150-AC (855+)[23] | "7 nm" TSMC N7 |
2021/03[24] |
Snapdragon 855 |
|
Adreno 640 @ 585 MHz (954.7 GFLOPS) |
Hexagon 690 (7 TOPs) |
Spectra 380 (192 megapixels) |
LPDDR4X Quad-channel 16-bit @ 2133 MHz (34.13 GB/s) |
4G (Cat 20: 2000 / 316 Mbit/s) |
SM8150 (855)[25] | "7 nm" TSMC N7 |
2018/12[26] 2019 Q1 (available) |
Snapdragon 845 |
|
Adreno 630 @ 710 MHz (737 GFLOPS) |
Hexagon 685 (3 TOPs) |
Spectra 280 (192 megapixels) |
LPDDR4X Quad-channel 16-bit @ 1866 MHz (29.9 GB/s) |
4G (Cat 18: 1200 / 150 Mbit/s) |
SDM845[27] | "10 nm" Samsung 10LPP |
2017/12[28] 2018/02 (available) |
Snapdragon 835 |
|
Adreno 540 @ 710/670 MHz (737/686 GFLOPS) |
Hexagon 682 | Spectra 180 (32 megapixels) |
LPDDR4X Dual-channel 32-bit @ 1866 MHz (29.8 GB/s) |
4G (Cat 16: 1000 / 150 Mbit/s) |
MSM8998 APQ8098 (no modem)[29] |
"10 nm" Samsung 10LPE |
2016/11[30] 2017 Q2 (available) |
Snapdragon 821 |
|
Adreno 530 @ 653 MHz (519.2 GFLOPS) |
Hexagon 680 @ 1 GHz | Spectra (28 megapixels) |
LPDDR4 Quad-channel 16-bit @ 1866 MHz (29.8 GB/s) |
4G (Cat 12: 600 / 150 Mbit/s) |
MSM8996 Pro[31] | "14 nm" Samsung 14LPP |
2016/07[32] |
Snapdragon 820 |
|
Adreno 530 @ 624 MHz (498.5 GFLOPS) |
Hexagon 680 @ 1 GHz | Spectra (28 megapixels) |
LPDDR4 Quad-channel 16-bit @ 1866 MHz (29.8 GB/s) |
4G (Cat 12: 600 / 150 Mbit/s) |
MSM8996[33] | "14 nm" Samsung 14LPP |
2015/03[34] 2016/01[35] |
Snapdragon 810 |
|
Adreno 430 @ 600/630 MHz | Hexagon V56 @ 800 MHz | (55 megapixels) | LPDDR4 Dual-channel 32-bit @ 1600 MHz (25.6 GB/s) |
4G (Cat 9: 450 / 50 Mbit/s) |
MSM8994[36] | "20 nm" TSMC | 2014/04[37] 2015 Q1 (available) |
Snapdragon 808 |
|
Adreno 418 @ 600 MHz | Hexagon V56 @ 800 MHz | (21 megapixels) | LPDDR3 Dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
4G (Cat 9: 450 / 50 Mbit/s) |
MSM8992[38] | "20 nm" TSMC | 2014/04[37] 2015 Q1 (available) |
Snapdragon 805 | 4x Krait 450 @ 2.7 GHz | Adreno 420 @ 600 MHz | Hexagon V50 @ 800 MHz | (55 megapixels) | LPDDR3 Dual-channel 64-bit @ 800 MHz (25.6 GB/s) |
not available | APQ8084[39] | "28 nm" TSMC 28HPm |
2013/11[40] 2014 Q2 (available) |
Snapdragon 801 | 4x Krait 400 @ 2.45 GHz | Adreno 330 @ 578 MHz | Hexagon QDSP6 V5 @ 600 MHz | (21 megapixels) | LPDDR3 Dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
4G (Cat 4: 150 / 50 Mbit/s) |
|
"28 nm" TSMC 28HPm |
2014/02[42] |
Snapdragon 800 (AB) |
4x Krait 400 @ 2.26 GHz | Adreno 330 @ 550 MHz | Hexagon QDSP6 V5 @ 600 MHz | (21 megapixels) | LPDDR3 Dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
4G (Cat 4: 150 / 50 Mbit/s) |
|
"28 nm" TSMC 28HPm |
2013/01[44] |
Snapdragon 800 | 4x Krait 400 @ 2.26 GHz | Adreno 330 @ 450 MHz | Hexagon QDSP6 V5 @ 600 MHz | (21 megapixels) | LPDDR3 Dual-channel 32-bit @ 800 MHz (12.8 GB/s) |
4G (Cat 4: 150 / 50 Mbit/s) |
|
"28 nm" TSMC 28HPm |
2013/01[44] 2013 Q3 (available) |
Snapdragon S4 Pro (APQ8064) |
4x Krait @ 1.5 GHz | Adreno 320 @ 400 MHz | Hexagon QDSP6 | (20 megapixels) | LPDDR2 Dual-channel 32-bit @ 533 MHz (8.5 GB/s) |
not available | APQ8064 (no modem) | "28 nm" 28LP |
2011/02[45] 2012 Q3 (available) |
Snapdragon S4 Pro (MSM8960T) |
2x Krait @ 1.7 GHz | Adreno 320 @ 400 MHz | Hexagon QDSP6 | (20 megapixels) | LPDDR2 Dual-channel 32-bit @ 500 MHz (8 GB/s) |
4G (Cat 3: 100 / 50 Mbit/s) |
MSM8960T | "28 nm" 28LP[46] |
2011/02[45] 2012 Q2 (available) |
Snapdragon S4 Plus (8_60A) |
2x Krait @ 1.5 GHz | Adreno 225 @ 400 MHz | Hexagon QDSP6 | (20 megapixels) | LPDDR2 Dual-channel 32-bit @ 500 MHz (8 GB/s) |
4G (Cat 3: 100 / 50 Mbit/s) |
|
"28 nm" 28LP[46] |
2011/02[45] 2012 Q1 (available) |
Snapdragon S3 | 2x Scorpion @ 1.7 GHz | Adreno 220 @ 266 MHz | Hexagon QDSP6 @ 400 MHz | (16 megapixels) | LPDDR2 single-channel @ 333 MHz (2.67 GB/s) |
3G (EV-DO / HSPA+) |
|
"45 nm"[47] | 2010 Q3 |
Snapdragon S2 | 1x Scorpion @ 1.4 GHz | Adreno 205 @ 266 MHz | Hexagon QDSP5 @ 256 MHz | (12 megapixels) | LPDDR2 dual-channel @ 333 MHz (5.3 GB/s) |
3G (EV-DO / HSPA+) |
|
"45 nm"[47] | 2010 Q2 |
Snapdragon S1 | 1x Scorpion @ 1 GHz | Adreno 200 @ 226 MHz | Hexagon QDSP6 @ 600 MHz | (12 megapixels) | LPDDR single-channel @ 400 MHz (3.2 GB/s) |
3G (EV-DO / HSPA+) |
|
"65 nm"[47] | 2008 Q4 |
Model | CPU | GPU | DSP | ISP | RAM | Modem | Catalog name | Lithography | Announced |
Snapdragon 700
Model | CPU[1] | GPU[2] | DSP[3] | ISP[4] | RAM | Modem | Catalog number | Lithography | Announced |
---|---|---|---|---|---|---|---|---|---|
Snapdragon 7+ Gen 2 |
|
Adreno 725 | Hexagon (12 TOPs) |
Spectra (200 megapixels) |
LPDDR5 dual-channel 16-bit @ 3200 MHz (25.6 GB/s) |
5G (4400 / 1600 Mbit/s) |
SM7475-AB[48] | "4 nm" TSMC |
2023/03[49] |
Snapdragon 7 Gen 1 |
|
Adreno | Hexagon (12 TOPs) |
Spectra (200 megapixels) |
LPDDR5 dual-channel 16-bit @ 3200 MHz (25.6 GB/s) |
5G (4400 / 1600 Mbit/s) |
SM7450-AB[50] | "4 nm" Samsung |
2022/05[10] |
Snapdragon 782G |
|
Adreno 642L | Hexagon 770 (12 TOPs) |
Spectra 570L (192 megapixels) |
LPDDR5 dual-channel 16-bit @ 3200 MHz (25.6 GB/s) |
5G (3700 / 1600 Mbit/s) |
SM7325-AF[51] | "6 nm" TSMC N6 |
2022/11 |
Snapdragon 778G+ |
|
Adreno 642L | Hexagon 770 (12 TOPs) |
Spectra 570L (192 megapixels) |
LPDDR5 dual-channel 16-bit @ 3200 MHz (25.6 GB/s) |
5G (3700 / 1600 Mbit/s) |
SM7325-AE[52] | "6 nm" TSMC N6 |
2021/10[53] |
Snapdragon 780G |
|
Adreno 642 | Hexagon 770 (12 TOPs) |
Spectra 570 (192 megapixels) |
LPDDR4X dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (3300 / 1600 Mbit/s) |
SM7350-AB[54] | "5 nm" Samsung 5LPE |
2021/03[55] |
Snapdragon 778G |
|
Adreno 642L | Hexagon 770 (12 TOPs) |
Spectra 570L (192 megapixels) |
LPDDR5 dual-channel 16-bit @ 3200 MHz (25.6 GB/s) |
5G (3300 / 1600 Mbit/s) |
SM7325[56] | "6 nm" TSMC N6 |
2021/05[57] |
Snapdragon 768G |
|
Adreno 620 | Hexagon 696 (5.4 TOPs) |
Spectra 355 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (3700 / 1600 Mbit/s) |
SM7250-AC[58] | "7 nm" Samsung 7LPP |
2020/05[59] |
Snapdragon 765G |
|
Adreno 620 | Hexagon 696 (5.4 TOPs) |
Spectra 355 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (3700 / 1600 Mbit/s) |
SM7250-AB[60] | "7 nm" Samsung 7LPP |
2019/12[61] 2020 Q1 (available) |
Snapdragon 765 |
|
Adreno 620 | Hexagon 696 (5.4 TOPs) |
Spectra 355 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (3700 / 1600 Mbit/s) |
SM7250-AA[62] | "7 nm" Samsung 7LPP |
2019/12[61] 2020 Q1 (available) |
Snapdragon 750G |
|
Adreno 619 | Hexagon 694 | Spectra 355L (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (3700 / 1600 Mbit/s) |
SM7225[63] | "8 nm" Samsung 8LPP |
2020/09[64] |
Snapdragon 732G |
|
Adreno 618 | Hexagon 688 (3.6 TOPS) |
Spectra 350 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (Cat 15: 800 / 150 Mbit/s) |
SM7150-AC[65] | "8 nm" Samsung 8LPP |
2020/08[66] |
Snapdragon 730G Snapdragon 730 |
|
Adreno 618 | Hexagon 688 | Spectra 350 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (Cat 15: 800 / 150 Mbit/s) |
SM7150-AA (730)[67] SM7150-AB (730G)[68] |
"8 nm" Samsung 8LPP |
2019/04[69] |
Snapdragon 720G |
|
Adreno 618 | Hexagon 692 | Spectra 350L (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (Cat 15: 800 / 150 Mbit/s) |
SM7125[70] | "8 nm" Samsung 8LPP |
2020/01[71] |
Snapdragon 712 |
|
Adreno 616 | Hexagon 685 | Spectra 250 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (Cat 15: 800 / 150 Mbit/s) |
SDM712[72] | "10 nm" Samsung 10LPP |
2019/02[73] |
Snapdragon 710 |
|
Adreno 616 | Hexagon 685 | Spectra 250 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (Cat 15: 800 / 150 Mbit/s) |
SDM710[74] | "10 nm" Samsung 10LPP |
2018/05[75] |
Model | CPU | GPU | DSP | ISP | RAM | Modem | Catalog name | Lithography | Announced |
Snapdragon 600
Model | CPU[1] | GPU[2] | DSP[3] | ISP[4] | RAM | Modem | Catalog number | Lithography | Announced |
---|---|---|---|---|---|---|---|---|---|
Snapdragon 6 Gen 1 |
|
Adreno | Hexagon | Spectra (108 megapixels) |
LPDDR5 dual-channel 16-bit @ 2750 MHz (22 GB/s) |
5G (2900 / 1600 Mbit/s) |
SM6450[76] | "4 nm" Samsung LPE |
2022/09[77] |
Snapdragon 695 |
|
Adreno 619 | Hexagon 686 (3.3 TOPs) |
Spectra 346T (108 megapixels) |
LPDDR4X dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (2500 / 1500 Mbit/s) |
SM6375[78] | "6 nm" TSMC N6 |
2021/10[53] |
Snapdragon 690 |
|
Adreno 619L | Hexagon 692 (5.4 TOPs) |
Spectra 355L (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (2500 / 900 Mbit/s) |
SM6350-AC[79] | "8 nm" Samsung 8LPP |
2020/06[80] |
Snapdragon 680 |
|
Adreno 610 | Hexagon 686 (3.3 TOPs) |
Spectra 346 (64 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (390 / 150 Mbit/s) |
SM6225[81] | "6 nm" TSMC N6 |
2021/10[53] |
Snapdragon 678 |
|
Adreno 612 | Hexagon 685 | Spectra 250L (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (600 / 150 Mbit/s) |
SM6150-AC[82] | "11 nm" Samsung 11LPP |
2020/12[83] |
Snapdragon 675 |
|
Adreno 612 | Hexagon 685 | Spectra 250L (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (600 / 150 Mbit/s) |
SM6150[84] | "11 nm" Samsung 11LPP |
2018/10[85] |
Snapdragon 670 |
|
Adreno 615 | Hexagon 685 | Spectra 250 (192 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (600 / 150 Mbit/s) |
SDM670[86] | "10 nm" Samsung 10LPP |
2018/08[87] |
Snapdragon 665 |
|
Adreno 610 | Hexagon 686 | Spectra 165 (48 megapixels) |
|
4G (600 / 150 Mbit/s) |
SM6125[88] | "11 nm" Samsung 11LPP |
2019/04[69] |
Snapdragon 662 |
|
Adreno 610 | Hexagon 683 | Spectra 340T (192 megapixels) |
|
4G (390 / 150 Mbit/s) |
SM6115[89] | "11 nm" Samsung 11LPP |
2020/01[71] |
Snapdragon 660 |
|
Adreno 512 | Hexagon 680 | Spectra 160 (48 megapixels) |
LPDDR4 dual-channel 16-bit @ 1866 MHz (14.9 GB/s) |
4G (600 / 150 Mbit/s) |
SDM660[90] | "14 nm" Samsung 14LPP |
2017/05[91] |
Snapdragon 653 |
|
Adreno 510 | Hexagon V53 | (21 megapixels) | LPDDR3 dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
4G (600 / 150 Mbit/s) |
MSM8976 Pro[92] | "28 nm" TSMC 28 HPm |
2016/10[93] |
Snapdragon 652 (Snapdragon 620) |
|
Adreno 510 @ 550 MHz | Hexagon V53 | (21 megapixels) | LPDDR3 dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
4G (300 / 150 Mbit/s) |
MSM8976[94] | "28 nm" TSMC 28 HPm |
2015/02[95] |
Snapdragon 650 (Snapdragon 618) |
|
Adreno 510 @ 550 MHz | Hexagon V53 | (21 megapixels) | LPDDR3 dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
4G (300 / 150 Mbit/s) |
MSM8956[96] | "28 nm" TSMC 28 HPm |
2015/02[95] |
Snapdragon 636 |
|
Adreno 509 | Hexagon 680 | Spectra 160 (24 megapixels) |
LPDDR4 dual-channel 16-bit @ 1333 MHz |
4G (600 / 150 Mbit/s) |
SDM636[97] | "14 nm" Samsung 14LPP |
2017/10[98] |
Snapdragon 632 |
|
Adreno 506 | Hexagon 546 | Spectra 250 (192 megapixels) |
LPDDR3 | 4G (300 / 150 Mbit/s) |
SDM632[99] | "14 nm" Samsung 14LPP |
2018/06[100] |
Snapdragon 630 |
|
Adreno 508 | Hexagon 642 | Spectra 160 (24 megapixels) |
LPDDR4 dual-channel 16-bit @ 1333 MHz |
4G (600 / 150 Mbit/s) |
SDM630[101] | "14 nm" Samsung 14LPP |
2017/05[91] |
Snapdragon 626 | 8x ARM Cortex-A53 @ 2.2 GHz | Adreno 506 @ 650 MHz | Hexagon 546 | (24 megapixels) | LPDDR3 single-channel @ 933 MHz (7.5 GB/s) |
4G (300 / 150 Mbit/s) |
MSM8953 Pro[102] | "14 nm" Samsung 14LPP |
2016/10[93] |
Snapdragon 625 | 8x ARM Cortex-A53 @ 2.0 GHz | Adreno 506 @ 650 MHz | Hexagon 546 | (24 megapixels) | LPDDR3 single-channel @ 933 MHz (7.5 GB/s) |
4G (300 / 150 Mbit/s) |
MSM8953[103] | "14 nm" Samsung 14LPP |
2016/02[104] |
Snapdragon 617 |
|
Adreno 405 @ 550 MHz | Hexagon 546 | (21 megapixels) | LPDDR3 single-channel @ 933 MHz (7.5 GB/s) |
4G (300 / 100 Mbit/s) |
MSM8952[105] | "28 nm" | 2015/09[106] |
Snapdragon 616 |
|
Adreno 405 @ 550 MHz | Hexagon V50 @ 700 MHz | (21 megapixels) | LPDDR3 single-channel @ 800 MHz (6.4 GB/s) |
4G (150 / 50 Mbit/s) |
MSM8939 v2[107] | "28 nm" | 2015/07[108] |
Snapdragon 615 |
|
Adreno 405 @ 550 MHz | Hexagon V50 @ 700 MHz | (21 megapixels) | LPDDR3 single-channel @ 800 MHz (6.4 GB/s) |
4G (150 / 50 Mbit/s) |
MSM8939[109] | "28 nm" | 2014/02[110] |
Snapdragon 610 | 4x ARM Cortex-A53 @ 1.7 GHz | Adreno 405 @ 550 MHz | Hexagon V50 @ 700 MHz | (21 megapixels) | LPDDR3 single-channel @ 800 MHz (6.4 GB/s) |
4G (150 / 50 Mbit/s) |
MSM8936[111] | "28 nm" | 2014/02[110] |
Snapdragon 600 (APQ8064AB) |
4x Krait 300 @ 1.9 GHz | Adreno 320 @ 450 MHz | Hexagon QDSP6 @ 500 MHz | (21 megapixels) | LPDDR3 dual-channel 32-bit @ 600 MHz |
not available | APQ8064AB[112] | "28 nm" 28LP |
2013/01[44] |
Snapdragon 600 (APQ8064T) |
4x Krait 300 @ 1.7 GHz | Adreno 320 @ 400 MHz | Hexagon QDSP6 @ 500 MHz | (21 megapixels) | LPDDR3 dual-channel 32-bit @ 600 MHz |
not available | APQ8064T[112] | "28 nm" 28LP |
2013/01[44] |
Snapdragon 600 (APQ8064M) |
4x Krait 300 @ 1.7 GHz | Adreno 320 @ 400 MHz | Hexagon QDSP6 @ 500 MHz | (21 megapixels) | LPDDR3 dual-channel 32-bit @ 533 MHz |
not available | APQ8064M[112] | "28 nm" 28LP |
2013/01[44] |
Model | CPU | GPU | DSP | ISP | RAM | Modem | Catalog name | Lithography | Announced |
Snapdragon 400
Model | CPU[1] | GPU[2] | DSP[3] | ISP[4] | RAM | Modem | Catalog number | Lithography | Announced |
---|---|---|---|---|---|---|---|---|---|
Snapdragon 4 Gen 1 |
|
Adreno | Hexagon | Spectra (108 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (2500 / 900 Mbit/s) |
SM4375[113] | "6 nm" TSMC N6 |
2022/09[77] |
Snapdragon 480+ |
|
Adreno 619 | Hexagon 686 (3.3 TOPS) |
Spectra 345 (64 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz (17 GB/s) |
5G (2500 / 1500 Mbit/s) |
SM4350-AC[114] | "8 nm" Samsung 8LPP |
2021/10[53] |
Snapdragon 480 |
|
Adreno 619 | Hexagon 686 (3.3 TOPS) |
Spectra 345 (64 megapixels) |
LPDDR4X Dual-channel 16-bit @ 2133 MHz |
5G (2500 / 600 Mbit/s) |
SM4350[115] | "8 nm" Samsung 8LPP |
2021/01[116] |
Snapdragon 460 |
|
Adreno 610 | Hexagon 683 | Spectra 340 (48 megapixels) |
LPDDR4X Dual-channel 16-bit @ 1866 MHz |
4G (390 / 150 Mbit/s) |
SM4250-AA[117] | "11 nm" Samsung 11LPP |
2020/01[71] |
Snapdragon 450 | 8x ARM Cortex-A53 @ 1.8 GHz | Adreno 506 @ 600 MHz | Hexagon 546 | (21 megapixels) | LPDDR3 single-channel @ 933 MHz |
4G (300 / 150 Mbit/s) |
SDM450[118] | "14 nm" | 2017/06[119] |
Snapdragon 439 |
|
Adreno 505 | Hexagon 536 | (21 megapixels) | LPDDR3 | 4G (150 / 75 Mbit/s) |
SDM439[120] | "12 nm" TSMC 12FFC |
2018/06[100] |
Snapdragon 435 | 8x ARM Cortex-A53 @ 1.4 GHz | Adreno 505 | Hexagon 536 | (21 megapixels) | LPDDR3 single-channel 32-bit @ 800 MHz (6.4 GB/s) |
4G (300 / 150 Mbit/s) |
MSM8940[121] | "28 nm" 28LP |
2016/02[104] |
Snapdragon 430 | 8x ARM Cortex-A53 @ 1.4 GHz | Adreno 505 | Hexagon 536 | (21 megapixels) | LPDDR3 single-channel 32-bit @ 800 MHz (6.4 GB/s) |
4G (150 / 75 Mbit/s) |
MSM8937[122] | "28 nm" 28LP |
2015/09[106] |
Snapdragon 429 | 4x ARM Cortex-A53 @ 1.95 GHz | Adreno 504 | Hexagon 536 | (16 megapixels) | LPDDR3 | 4G (150 / 75 Mbit/s) |
SDM429[123] | "12 nm" TSMC 12FFC |
2018/06[100] |
Snapdragon 427 | 4x ARM Cortex-A53 @ 1.4 GHz | Adreno 308 | Hexagon 536 | (16 megapixels) | LPDDR3 single-channel 32-bit @ 667 MHz (5.3 GB/s) |
4G (300 / 150 Mbit/s) |
MSM8920[124] | "28 nm" 28LP |
2016/10[93] |
Snapdragon 425 | 4x ARM Cortex-A53 @ 1.4 GHz | Adreno 308 | Hexagon 536 | (16 megapixels) | LPDDR3 single-channel 32-bit @ 667 MHz (5.3 GB/s) |
4G (150 / 75 Mbit/s) |
MSM8917[125] | "28 nm" 28LP |
2016/02[104] |
Snapdragon 415 | 8x ARM Cortex-A53 @ 1.4 GHz | Adreno 405 | Hexagon V50 | (13 megapixels) | LPDDR3 single-channel 32-bit @ 667 MHz (5.3 GB/s) |
4G (150 / 75 Mbit/s) |
MSM8929[126] | "28 nm" 28LP |
2015/02[95] |
Snapdragon 412 | 4x ARM Cortex-A53 @ 1.4 GHz | Adreno 306 @ 450 MHz | Hexagon QDSP6 V5 | (13.5 megapixels) | LPDDR3 single-channel 32-bit @ 600 MHz (4.8 GB/s) |
4G (150 / 75 Mbit/s) |
MSM8916 v2[127] | "28 nm" SMIC |
2015/07[128] |
Snapdragon 410 | 4x ARM Cortex-A53 @ 1.2 GHz | Adreno 306 @ 450 MHz | Hexagon QDSP6 V5 | (13.5 megapixels) | LPDDR3 single-channel 32-bit @ 533 MHz (4.2 GB/s) |
4G (150 / 75 Mbit/s) |
MSM8916[129] APQ8016 (no modem) |
"28 nm" SMIC |
2013/12[130] |
Snapdragon 400 (8_30AB) |
2x Qualcomm Krait 300 @ 1.7 GHz | Adreno 305 @ 400 MHz | Hexagon QDSP6 | (13.5 megapixels) | LPDDR2 single-channel 32-bit @ 533 MHz (4.2 GB/s) |
4G (150 / 75 Mbit/s) |
|
"28 nm" 28LP |
2013/02[132] |
Snapdragon 400 (8_30AA) |
2x Qualcomm Krait 300 @ 1.4 GHz | Adreno 305 @ 400 MHz | Hexagon QDSP6 | (13.5 megapixels) | LPDDR2 single-channel 32-bit @ 533 MHz (4.2 GB/s) |
4G (150 / 75 Mbit/s) |
MSM8930AA[131] | "28 nm" 28LP |
2013/02[132] |
Snapdragon 400 (8_30) |
2x Qualcomm Krait 300 @ 1.2 GHz | Adreno 305 @ 400 MHz | Hexagon QDSP6 | (13.5 megapixels) | LPDDR2 single-channel 32-bit @ 533 MHz (4.2 GB/s) |
4G (150 / 75 Mbit/s) |
|
"28 nm" 28LP |
2013/02[132] |
Snapdragon 400 (8_28) |
4x ARM Cortex-A7 @ 1.6 GHz | Adreno 305 @ 400 MHz | Hexagon QDSP6 | (13.5 megapixels) | LPDDR3 single-channel 32-bit @ 533 MHz (4.2 GB/s) |
4G (150 / 75 Mbit/s) |
|
"28 nm" 28LP |
2013/02[132] |
Snapdragon 400 (8_26) |
4x ARM Cortex-A7 @ 1.2 GHz | Adreno 305 @ 400 MHz | Hexagon QDSP6 | (13.5 megapixels) | LPDDR3 single-channel 32-bit @ 533 MHz (4.2 GB/s) |
4G (150 / 75 Mbit/s) |
|
"28 nm" 28LP |
2013/02[132] |
Model | CPU | GPU | DSP | ISP | RAM | Modem | Catalog name | Lithography | Announced |
PC processors
Model | CPU[1] | GPU[2] | DSP[3] | ISP[4] | RAM | Modem | Catalog number | Lithography | Announced |
---|---|---|---|---|---|---|---|---|---|
Snapdragon X Elite gen 1 |
|
(4600 GFLOPS) Adreno |
(45 TOPs) Hexagon |
Spectra | LPDDR5x octa-channel 16-bit (136 GB/s) | 5G (10000 / 316 Mbit/s) |
"4 nm" TSMC N4 |
2023/10[133] | |
Snapdragon 8cx Gen 3 Microsoft SQ3 |
|
Adreno | (29 TOPs) Hexagon |
Spectra (24 megapixels) |
LPDDR4x octa-channel 16-bit @ 2133 MHz (86.3 GB/s) |
5G (10000 / 316 Mbit/s) |
"5 nm" Samsung 5LPE |
2021/12[134] | |
Snapdragon 8 Gen 2 Microsoft SQ2 |
|
(2078.7 GFLOPs) Adreno 680 |
(9 TOPs) Hexagon 690 |
Spectra 390 (192 megapixels) |
LPDDR4x octa-channel 16-bit @ 2133 MHz (86.3 GB/s) |
5G (7000 / 3000 Mbit/s) |
SC8180XP[135] | "7 nm" TSMC N7 |
2020/09[136] |
Snapdragon 8cx Microsoft SQ 1 |
|
Adreno 680 (1842.5 GFLOPs) |
Hexagon 690 (9 TOPs) |
Spectra 390 (192 megapixels) |
LPDDR4x octa-channel 16-bit @ 2133 MHz (86.26 GB/s) |
4G (2000 / 316 Mbit/s) |
[137] [135] |
"7 nm" TSMC N7 |
2019/12[138] 2020/09[136] (gen2) |
Snapdragon 8c |
|
Adreno 675 | Hexagon 690 (9 TOPs) |
Spectra 390 (192 megapixels) |
LPDDR4X quad-channel 16-bit @ 2133 MHz (34.2 GB/s) |
4G (2000 / 316 Mbit/s) |
[139] | "7 nm" TSMC N7 |
2019/12[138] |
Snapdragon 7c+ Gen 3 |
? |
Adreno | Hexagon | Spectra (64 megapixels) |
|
5G (3700 / 2900 Mbit/s) |
"6 nm" |
2021/12[134] | |
Snapdragon 7c |
|
Adreno 618 | Hexagon 692 (5 TOPs) |
Spectra 255 (32 megapixels) |
LPDDR4X dual-channel 16-bit @ 2133 MHz (17.1 GB/s) |
4G (800 / 150 Mbit/s) |
[140] | "8 nm" Samsung 8LPP |
2019/12[138] |
Snapdragon 850 |
|
Adreno 630 @ 710 MHz (737 GFLOPS) |
Hexagon 685 (3 TOPs) |
Spectra 280 (192 megapixels) |
LPDDR4X quad-channel 16-bit @ 1866 MHz (29.9 GB/s) |
4G (1200 / 150 Mbit/s) |
SDM850[141] | "10 nm" Samsung 10LPP |
2018/06[142] |
Snapdragon 835 |
|
Adreno 540 @ 710 MHz (737 GFLOPS) |
Hexagon 682 | Spectra 180 32 megapixels |
LPDDR4X dual-channel 32-bit @ 1866 MHz (29.8 GB/s) |
4G (1000 / 150 Mbit/s) |
MSM8998 [143] | "10 nm" Samsung 10LPE |
2017/01[144] |
Model | CPU | GPU | DSP | ISP | RAM | Modem | Catalog name | Lithography | Announced |
See also
References
- ↑ 1.0 1.1 1.2 1.3 1.4 Central Processing Unit.
- ↑ 2.0 2.1 2.2 2.3 2.4 Graphics Processing Unit, responsible for displaying graphics and text on the device screen.
- ↑ 3.0 3.1 3.2 3.3 3.4 Digital Signal Processor, responsible for measuring, filtering and compressing analog signals.
- ↑ 4.0 4.1 4.2 4.3 4.4 Image Signal Processor, responsible for processing the images captured by the camera.
- ↑ Snapdragon 8 Gen 2 Mobile Platform
- ↑ Qualcomm Extends Leadership in Premium and High Tier Android Devices with Snapdragon’s Newest Powerhouse Mobile Platforms
- ↑ Snapdragon 8 Gen 2 Mobile Platform
- ↑ Qualcomm Extends Leadership in Premium and High Tier Android Devices with Snapdragon’s Newest Powerhouse Mobile Platforms
- ↑ Snapdragon 8+ Gen 1 Mobile Platform
- ↑ 10.0 10.1 Qualcomm Extends Leadership in Premium and High Tier Android Devices with Snapdragon’s Newest Powerhouse Mobile Platforms
- ↑ Snapdragon 8 Gen 1 Mobile Platform
- ↑ Qualcomm Announces World’s Most Advanced Mobile Platform, the Snapdragon 8 Gen 1
- ↑ Qualcomm Snapdragon 888+ product brief
- ↑ Qualcomm Upgrades its Premium Tier with Snapdragon 888 Plus 5G Mobile Platform
- ↑ Qualcomm Snapdragon 888 product brief
- ↑ Qualcomm Redefines Premium at Snapdragon Tech Summit Digital 2020
- ↑ Snapdragon 870 5G Mobile Platform
- ↑ Qualcomm Announces Boosted Snapdragon 870 5G Mobile Platform
- ↑ Snapdragon 865 Plus 5G Mobile Platform
- ↑ Qualcomm Announces Snapdragon 865 Plus 5G Mobile Platform
- ↑ Snapdragon 865 5G Mobile Platform
- ↑ Qualcomm Introduces the World’s Most Advanced 5G Mobile Platform
- ↑ 23.0 23.1 Snapdragon 855+ Mobile Platform
- ↑ 24.0 24.1 Qualcomm Announces Snapdragon 855 Plus Mobile Platform
- ↑ Snapdragon 855 Mobile Platform
- ↑ Qualcomm Announces New Flagship Snapdragon 855 Mobile Platform - A New Decade of 5G, AI, and XR
- ↑ Snapdragon 845 Mobile Platform
- ↑ Qualcomm Launches Technology Innovation with Advancements in the Always Connected PC and its Next-Generation Qualcomm Snapdragon Mobile Platform
- ↑ Snapdragon 835 Mobile Platform
- ↑ Get small, go big: Meet the next-gen Snapdragon 835
- ↑ Snapdragon 821 Mobile Platform
- ↑ Snapdragon 821 builds on 820 processor success
- ↑ Snapdragon 820 Mobile Platform
- ↑ Qualcomm Announces Snapdragon 820 and Zeroth Platform
- ↑ First Snapdragon 820 powered smartphone announced at CES
- ↑ Snapdragon 810 Processor
- ↑ 37.0 37.1 Qualcomm Announces “The Ultimate Connected Computing” Next- Generation Snapdragon 810 and 808 Processors
- ↑ Snapdragon 808 Processor
- ↑ Snapdragon 805 Processor
- ↑ Qualcomm Technologies Announces Next Generation Qualcomm Snapdragon 805 “Ultra HD” Processor
- ↑ Snapdragon 801 Processor
- ↑ The Snapdragon 801 Processor Is a Smooth Step Up from the Snapdragon 800 Processor
- ↑ 43.0 43.1 Snapdragon 800 Processor
- ↑ 44.0 44.1 44.2 44.3 44.4 Qualcomm Announces Next Generation Snapdragon Premium Mobile Processors
- ↑ 45.0 45.1 45.2 Qualcomm Announces Next-generation Snapdragon Mobile Chipset Family
- ↑ 46.0 46.1 Snapdragon S4, S3, S2 and S1
- ↑ 47.0 47.1 47.2 Snapdragon S3, S2, S1 Processor Product Specs
- ↑ Snapdragon 7+ Gen 2 Mobile Platform
- ↑ Legendary entertainment, unleashed: New Snapdragon 7+ Gen 2 is our most powerful 7-series yet
- ↑ Snapdragon 7 Gen 1 5G Mobile Platform
- ↑ Snapdragon 782G 5G Mobile Platform
- ↑ Snapdragon 778G+ 5G Mobile Platform
- ↑ 53.0 53.1 53.2 53.3 Qualcomm Upgrades Mobile Roadmap to Deliver Increased Capabilities Across Snapdragon 7, 6 and 4 Series
- ↑ Snapdragon 780G 5G Mobile Platform
- ↑ Qualcomm Extends the Leadership of its 7-Series with the Snapdragon 780G 5G Mobile Platform
- ↑ Snapdragon 778G 5G Mobile Platform
- ↑ Qualcomm Announces New Snapdragon 778G 5G Mobile Platform; Showcases Mass Ecosystem Adoption
- ↑ Snapdragon 768G 5G Mobile Platform
- ↑ Qualcomm Addresses Growing Demand for 5G by Announcing New Snapdragon 768G Mobile Platform
- ↑ Snapdragon 765G 5G Mobile Platform
- ↑ 61.0 61.1 Qualcomm Extends its Mobile Leadership by Bringing 5G Experiences to More Users Around the World
- ↑ Snapdragon 765 5G Mobile Platform
- ↑ Snapdragon 750G 5G Mobile Platform
- ↑ Qualcomm Adds New 5G Mobile Platform to Snapdragon 7-Series
- ↑ Snapdragon 732G Mobile Platform
- ↑ Qualcomm Announces Snapdragon 732G to Improve High-Tier Mobile Gaming
- ↑ Snapdragon 730 Mobile Platform
- ↑ Snapdragon 730G Mobile Platform
- ↑ 69.0 69.1 Qualcomm Enables Amazing Consumer Experiences with the New Snapdragon 730, 730G and 665 Mobile Platforms for High and Mid Tier Global Devices
- ↑ Snapdragon 720G Mobile Platform
- ↑ 71.0 71.1 71.2 Qualcomm Launches Three New Snapdragon Mobile Platforms to Address Ongoing Demand for 4G Smartphones
- ↑ Snapdragon 712 Mobile Platform
- ↑ Snapdragon 712: A performance boost delivers premium features in gaming and beyond
- ↑ Snapdragon 710 Mobile Platform
- ↑ More premium features on more devices: How Snapdragon 710 can elevate the mobile experience
- ↑ Snapdragon 6 Gen 1 Mobile Platform
- ↑ 77.0 77.1 Qualcomm Scales Flagship Experiences to More Consumers with Introduction of Snapdragon 6 and 4 Gen 1
- ↑ Snapdragon 695 5G Mobile Platform
- ↑ Snapdragon 690 5G Mobile Platform
- ↑ Qualcomm Announces First 5G Snapdragon 6-Series Mobile Platform
- ↑ Snapdragon 680 4G Mobile Platform
- ↑ Qualcomm Snapdragon 678 product brief
- ↑ Qualcomm Announces New Snapdragon 678 Mobile Platform for Immersive Entertainment Experiences
- ↑ Snapdragon 675 Mobile Platform
- ↑ Qualcomm Snapdragon 675 Mobile Platform Brings Outstanding Gaming with Advanced AI and Cutting-Edge Camera Performance to Consumers in Early 2019
- ↑ Snapdragon 670 Mobile Platform
- ↑ Introducing Snapdragon 670 for superior performance, camera capabilities, and AI tech
- ↑ Snapdragon 665 Mobile Platform
- ↑ Snapdragon 662 Mobile Platform
- ↑ Snapdragon 660 Mobile Platform
- ↑ 91.0 91.1 Qualcomm Snapdragon 660 and 630 Mobile Platforms Drive Advanced Photography, Enhanced Gaming, Integrated Connectivity and Machine Learning
- ↑ Snapdragon 653 Mobile Platform
- ↑ 93.0 93.1 93.2 New Snapdragon 653, 626, 427 processors focus on advanced performance and connectivity
- ↑ Snapdragon 652 Mobile Platform
- ↑ 95.0 95.1 95.2 4 new Snapdragon processors take 4G LTE and multimedia to new heights
- ↑ Snapdragon 650 Mobile Platform
- ↑ Snapdragon 636 Mobile Platform
- ↑ Qualcomm Snapdragon 636 Mobile Platform Delivers Significant Increases in Performance, Gaming and Display Technology
- ↑ Snapdragon 632 Mobile Platform
- ↑ 100.0 100.1 100.2 Introducing Snapdragon 632, 439, and 429 for enhanced mobile experiences, superior performance
- ↑ Snapdragon 630 Mobile Platform
- ↑ Snapdragon 626 Mobile Platform
- ↑ Snapdragon 625 Mobile Platform
- ↑ 104.0 104.1 104.2 Introducing the Snapdragon 625, 435, and 425 processors
- ↑ Snapdragon 617 Processor
- ↑ 106.0 106.1 Snapdragon 617 and 430 build up the mid-tier with high-end features
- ↑ Snapdragon 616 Processor
- ↑ Snapdragon 616 processor debuts with Huawei smartphone
- ↑ Snapdragon 615 Processor
- ↑ 110.0 110.1 Qualcomm Technologies Announces World’s First Commercial 64-bit Octa-Core Chipset with Integrated 5 Mode Global LTE
- ↑ Snapdragon 610 Processor
- ↑ 112.0 112.1 112.2 Snapdragon 600 Processor
- ↑ Snapdragon 4 Gen 1 Mobile Platform
- ↑ Snapdragon 480+ 5G Mobile Platform
- ↑ Snapdragon 480 5G Mobile Platform
- ↑ Qualcomm Expands 5G Capabilities to Mobile Devices Powered by New Snapdragon 480 5G Mobile Platform, a First in the Snapdragon 4-Series
- ↑ Snapdragon 460 Mobile Platform
- ↑ Snapdragon 450 Mobile Platform
- ↑ Qualcomm Snapdragon 450 Mobile Platform to Bring 14nm FinFET Process, Enhanced Dual-Camera Support and Fast LTE Connectivity to Mid-Range Smartphones and Tablets
- ↑ Snapdragon 439 Mobile Platform
- ↑ Snapdragon 435 Mobile Platform
- ↑ Snapdragon 430 Mobile Platform
- ↑ Snapdragon 429 Mobile Platform
- ↑ Snapdragon 427 Mobile Platform
- ↑ Snapdragon 425 Mobile Platform
- ↑ Snapdragon 415 Processor
- ↑ Snapdragon 412 Processor
- ↑ Snapdragon 412 and 212 processors announced
- ↑ Snapdragon 410 Processor
- ↑ Qualcomm Technologies Introduces Snapdragon 410 Chipset with Integrated 4G LTE World Mode for High-Volume Smartphones
- ↑ 131.0 131.1 131.2 131.3 131.4 Qualcomm Snapdragon Processors
- ↑ 132.0 132.1 132.2 132.3 132.4 Qualcomm Reveals the Snapdragon™ 400 and 200 Processors
- ↑ Introducing the Snapdragon 8cx Gen 3 Compute Platform: extreme mobile computing experiences that deliver more than just a laptop
- ↑ 134.0 134.1 Introducing the Snapdragon 8cx Gen 3 Compute Platform: extreme mobile computing experiences that deliver more than just a laptop
- ↑ 135.0 135.1 Snapdragon 8cx Gen 2 5G Compute Platform
- ↑ 136.0 136.1 Qualcomm Drives 5G PC Ecosystem Expansion with Next Generation Compute Platform, Powering New 2-in-1 Laptops from OEMs Including Acer in 2020
- ↑ Snapdragon 8cx Compute Platform
- ↑ 138.0 138.1 138.2 Qualcomm Snapdragon Powered Always On, Always Connected PC Portfolio Expansion Disrupts Entry, Mainstream, and Premium Mobile PC Industries
- ↑ Snapdragon 8c Compute Platform
- ↑ Snapdragon 7c Compute Platform
- ↑ Snapdragon 850 Mobile Compute Platform
- ↑ Qualcomm Announces Snapdragon 850 Mobile Compute Platform for Windows 10 PCs
- ↑ Snapdragon 835 Mobile PC Platform
- ↑ Qualcomm Snapdragon 835 Mobile Platform to Power Next-Generation Immersive Experiences
Qualcomm processors [e] | |
---|---|
Premium | |
Intermediate | |
Basic | |
PC | |
Latest processors | |
[e]
|