Comparez les Apple APL0298 et autres chipset mobile
Apple APL0298
Facilité d'emploi
17.5 point
Fonctionnalité
33.3 point
performances du processeur
4.8 point
Comparez l'Apple APL0298 et l' Qualcomm Snapdragon S2 APQ8055
 | Avantages de Qualcomm Snapdragon S2 APQ8055 |
3.3 point(65nm) vs 10 point(45nm)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Texas Instruments OMAP4470
| Avantages de Texas Instruments OMAP4470 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 14.1 point(466MHz)
0 point(1.6GB/s) vs 16.8 point(7.4GB/s)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Nvidia Tegra 3 A33
| Avantages de Nvidia Tegra 3 A33 |
3.3 point(65nm) vs 13.2 point(40nm)
6.2 point(200MHz) vs 22.5 point(750MHz)
0 point(1.6GB/s) vs 6.8 point(6GB/s)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Unisoc SC7731e
| Avantages de Unisoc SC7731e |
3.3 point(65nm) vs 25.6 point(28nm)
0.1 point(150MHz) vs 99.6 point(1300MHz)
Comparez l'Apple APL0298 et l' MediaTek MT6589T
| Avantages de MediaTek MT6589T |
3.3 point(65nm) vs 25.6 point(28nm)
6.2 point(200MHz) vs 16.1 point(533MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Spreadtrum SC6825
| Avantages de Spreadtrum SC6825 |
3.3 point(65nm) vs 13.2 point(40nm)
0.1 point(150MHz) vs 15.8 point(500MHz)
Comparez l'Apple APL0298 et l' Qualcomm Snapdragon S2 MSM8655
| Avantages de Qualcomm Snapdragon S2 MSM8655 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 15.1 point(500MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Qualcomm Snapdragon S2 MSM8255
| Avantages de Qualcomm Snapdragon S2 MSM8255 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 15.1 point(500MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' MediaTek MT6589
| Avantages de MediaTek MT6589 |
3.3 point(65nm) vs 25.6 point(28nm)
6.2 point(200MHz) vs 16.1 point(533MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Texas Instruments OMAP4430
| Avantages de Texas Instruments OMAP4430 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 12.2 point(400MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Qualcomm Snapdragon S3
| Avantages de Qualcomm Snapdragon S3 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 15.1 point(500MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Spreadtrum SC6815
| Avantages de Spreadtrum SC6815 |
3.3 point(65nm) vs 13.2 point(40nm)
0.1 point(150MHz) vs 15.8 point(500MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Spreadtrum SC7715
| Avantages de Spreadtrum SC7715 |
3.3 point(65nm) vs 13.2 point(40nm)
0.1 point(150MHz) vs 15.8 point(500MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Samsung Exynos 4 Quad
| Avantages de Samsung Exynos 4 Quad |
3.3 point(65nm) vs 20.5 point(32nm)
6.2 point(200MHz) vs 12.2 point(400MHz)
0 point(1.6GB/s) vs 9.9 point(6.4GB/s)
0.1 point(150MHz) vs 9.1 point(440MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Texas Instruments OMAP4460
| Avantages de Texas Instruments OMAP4460 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 12.2 point(400MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' MediaTek MT6577
| Avantages de MediaTek MT6577 |
3.3 point(65nm) vs 13.2 point(40nm)
- Prise en charge NX
Comparez l'Apple APL0298 et l' ARM Cortex-A76
| Avantages de ARM Cortex-A76 |
3.3 point(65nm) vs 81.2 point(7nm)
- prise en charge 64 bits
Comparez l'Apple APL0298 et l' Samsung Exynos 3
| Avantages de Samsung Exynos 3 |
3.3 point(65nm) vs 10 point(45nm)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Apple A5 APL2498
| Avantages de Apple A5 APL2498 |
3.3 point(65nm) vs 20.5 point(32nm)
6.2 point(200MHz) vs 12.2 point(400MHz)
0 point(1.6GB/s) vs 9.9 point(6.4GB/s)
0.1 point(150MHz) vs 6 point(400MHz)
- Prise en charge NX
Comparez l'Apple APL0298 et l' Apple A5 APL0498
| Avantages de Apple A5 APL0498 |
3.3 point(65nm) vs 10 point(45nm)
6.2 point(200MHz) vs 12.2 point(400MHz)
0 point(1.6GB/s) vs 9.9 point(6.4GB/s)
- Prise en charge NX
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