Thus I expect that 1. RK Cortex-A53 cluster runs at 1. H6 runs at 1. People cheat and lie. But what does this tell about these SoCs in general? And how can I figure out why my H6 devices do not run stable at 1. Single board computers are embedded machines that usually need to work reliably. They are not toys that can fail and be discarded. Ok, totally understand your overclocking concerns. Why should we trust into this 1. We need to remind our selves that in these arm designs the high speeds cores were never designed for constant highest speed use.
These old designs overheat and throttle. You can go Amd, Intel route and stick a behemoth heatsink and fan to devour electric to make noise. Fair point but the GPU is , is this a fair like for like comparison for heat generated in the SoC.
Arms race to top speed 53 cpu overheat and throttle. The new cores going forwared replace that model they claim. Not going to happen in a chip designed for set top boxes. So you need to add value or must have feature to break the cycle. These TV SoC can be used in much more, they are fixed set mini computers. Add in true Pci-e for expansion cards and things can get interesting.
Too much work to support Linux it seems. I was thinking the same. On the RK, the overall total processing power you have on the 2 big cores is roughly the same as on the 4 little ones, which makes it difficult to choose how to distribute your workload.
In reality, though, there will be multiple processes, some requiring shorter latencies, others — not so much, and RK decided the ratio of that is in favor of LITTLE cores.
Amlogic thought their ratio was the opposite — in favor of big cores. More interesting is the fact that it has PCIe support as well and can do dual decode and possibly even encode at 4K. Not quite as many as the Rockchip ones, but still some support. There is a interesting video where Libre explain that they a trying to increase the uses for the SoCs they support.
I hope not, I think regular Android is much better. So any Android OS support may have to come from the community. Qualcomm Snapdragon SiP 1. Qualcomm SDM Snapdragon Qualcomm QM Snapdragon Qualcomm MSM Snapdragon Qualcomm MSMv2 Snapdragon Qualcomm APQ MediaTek MT MediaTek MTB.
MediaTek MTA. MediaTek MTD. MediaTek MTT. MediaTek MTS. MediaTek MTW. MediaTek MTV. MediaTek MTM. MediaTek MTP. HiSilicon Kirin HiSilicon HiMV HiSilicon HiCV Broadcom BCMB0. Broadcom BCM Amlogic SXJ. Amlogic SX-H.
Amlogic SX. Amlogic S Amlogic SY2. Amlogic SX2-B. Amlogic SX2. Amlogic SW4. Amlogic SW. Amlogic SM.
0コメント