Sponsor: NZXT C1500 Platinum PSU on Amazon https://geni.us/KvKlUiIntel's CPUs, including the 14900K and 13900K (and others of those generations) have had ram...
The last generation has been a total mess for both Intel and AMD.
AMD had motherboards frying CPUs, crazy stupid post issues due to DDR5 memory training (and my personal build fails to post like 25% of the time due to this exact same stupid shit), and just generally less than a totally reliable experience compared to previous gens.
Intel has much the same set of problems on their 13/14th gen stuff: dead chips, memory training issues, instability.
Wonder if it’s just a fluke that both x86 vendors are having a shitty generation at the same time, or if something else is at play.
Maybe x86/x64 has reached the end of its development lifecycle, and both companies are at the point where they simply can’t squeeze any more out of it, so every trick they try results in these abnormalities?
During this process the system firmware is configuring itself for the newly installed memory. LEDs on the motherboard or computer may or may not be active during this process. On-screen symptoms of this may be a black screen or the system pausing on a manufacturer splash screen.
If this is happening, just leave the system powered to complete this process, which in some instances has been seen to take up to 15 minutes. If this is successful the system will either begin operating normally after the elapsed time, or may require a reboot but will work normally once this is done.
The UX for this seems to be absolute shit. The system seems to hang, and give no indication of something going on? And in the end, the system may need a reboot to complete the process? It better give some indication when it’s complete then, or else.
It’s just the easiest way to do this. Memory training is a very early step in the boot process. Firmware only has the CPU cache available as memory and most hardware in the system isn’t initialized yet. Most of this isn’t even done by the UEFI firmware itself, but by calling a binary blob provided by the CPU manufacturer, for intel it is called FSP and AMD i believe it is AGESA. I’d have to check, but I believe at the point memory training is running the PCIe bus has not even been brought up and scanned, so video output in this phase would require extensive reengineering of the early boot process from both the CPU manufacturer, firmware vendors and the board manufacturer. PCIe has DMA so making that work without memory might be a challenge. There are three easy to implement solutions though: post codes if your mainboard has a display for them, serial output if the board has a serial port (though this needs another device to read the messages) and the cheapest solution could be a flashing LED on the board labeled memory training in progress.
Because they are pushing their chips even harder. AMD literally pegs them at the maximum temperature these days. It’s basically factory overclocking for both companies. Of course it’s going to run into issues, voltage + temperature fries chips
Factory overclocking is a marketing term. Overclocking means running a processor above its specified speed, but if it intentionally ships that way from the factory it is by definition operating within specification.
The last generation has been a total mess for both Intel and AMD.
AMD had motherboards frying CPUs, crazy stupid post issues due to DDR5 memory training (and my personal build fails to post like 25% of the time due to this exact same stupid shit), and just generally less than a totally reliable experience compared to previous gens.
Intel has much the same set of problems on their 13/14th gen stuff: dead chips, memory training issues, instability.
Wonder if it’s just a fluke that both x86 vendors are having a shitty generation at the same time, or if something else is at play.
Maybe x86/x64 has reached the end of its development lifecycle, and both companies are at the point where they simply can’t squeeze any more out of it, so every trick they try results in these abnormalities?
I dunno.
Memory training:
https://www.crucial.com/support/articles-faq-memory/ddr5-memory-training
Have you tried this?
If you don’t let it finish, the system will continue to POST with unstable values.
The UX for this seems to be absolute shit. The system seems to hang, and give no indication of something going on? And in the end, the system may need a reboot to complete the process? It better give some indication when it’s complete then, or else.
Absolutely, this is decidedly user hostile design.
It’s just the easiest way to do this. Memory training is a very early step in the boot process. Firmware only has the CPU cache available as memory and most hardware in the system isn’t initialized yet. Most of this isn’t even done by the UEFI firmware itself, but by calling a binary blob provided by the CPU manufacturer, for intel it is called FSP and AMD i believe it is AGESA. I’d have to check, but I believe at the point memory training is running the PCIe bus has not even been brought up and scanned, so video output in this phase would require extensive reengineering of the early boot process from both the CPU manufacturer, firmware vendors and the board manufacturer. PCIe has DMA so making that work without memory might be a challenge. There are three easy to implement solutions though: post codes if your mainboard has a display for them, serial output if the board has a serial port (though this needs another device to read the messages) and the cheapest solution could be a flashing LED on the board labeled memory training in progress.
Because they are pushing their chips even harder. AMD literally pegs them at the maximum temperature these days. It’s basically factory overclocking for both companies. Of course it’s going to run into issues, voltage + temperature fries chips
Factory overclocking is a marketing term. Overclocking means running a processor above its specified speed, but if it intentionally ships that way from the factory it is by definition operating within specification.