Howto samsung ssd: Difference between revisions

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= speed test =
= speed test =
identify drive letter:
identify drive letter:
  fdisk -l|grep Samsung -B 1
  sudo fdisk -l|grep Samsung -B 1
test hard drive speeds:
test hard drive speeds:
  hdparm -Tt /dev/nvme1n1
  sudo hdparm -Tt /dev/nvme1n1
install fio disk benchmark tool:
sudo pacman -S fio
perform disk read benchmark with fio:
fio --randrepeat=1 --ioengine=io_uring --direct=1 --gtod_reduce=1 --name=test --filename=test --bs=4k --iodepth=64 --size=4G --readwrite=randread
perform disk write benchmark with fio:
fio --randrepeat=1 --ioengine=io_uring --direct=1 --gtod_reduce=1 --name=test --filename=test --bs=4k --iodepth=64 --size=4G --readwrite=randwrite
or perform both read and write disk benchmark with fio:
fio --randrepeat=1 --ioengine=io_uring --direct=1 --gtod_reduce=1 --name=test --filename=test --bs=4k --iodepth=64 --size=4G --readwrite=randrw --rwmixread=75
install graphical tool kdiskmark with flatpak:
flatpak install flathub io.github.jonmagon.kdiskmark
install iotop to verify io usage:
sudo pacman -Sy iotop --noconfirm
execute iotop as root:
sudo iotop -o
 
= temperature =
install nvme-cli tool using pacman:
sudo pacman -Sy nvme-cli
display nmve drive health and temperatures:
sudo nvme smart-log /dev/nvme0
or install smartmontools:
sudo pacman -S smartmontools --noconfirm
use smartmontools to show nvme health and temperatures:
sudo smartctl -a /dev/nvme0
another tool to watch nvme temperatues is lm_sensors:
sudo pacman -S lm_sensors --noconfirm
watch temperatures with lm_sensors:
sudo sensors
 
= stress test =
install stress to perform stress test to disk:
sudo pacman -S stress --noconfirm
perform disk io stress test:
stress --io 4
watch disk temperatures with smartctl:
smartctl -a /dev/nvme0
 
= update firmware =
= update firmware =
first, unmount any filesystem mounted on the drive or if it’s your boot drive, you would need to boot using a livecd.
first, unmount any filesystem mounted on the drive or if it’s your boot drive, you would need to boot using a livecd.
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  cd /tmp/samsung/root/fumagician
  cd /tmp/samsung/root/fumagician
  ./fumagician
  ./fumagician
= from old drive to new one =
first identify the drive letter:
fdisk -l|grep Samsung -B 1
next create the new partitions on drive using parted:
parted /dev/nvme0n1
inside parted create the partition table as gpt then boot and root partitions:
mklabel gpt
mkpart primary 1 1G
mkpart primary 1G 100%
inside parted set partition 1 as bootable:
set 1 boot on
set 1 bios_grub on
quit
format partitions with filesystems:
mkfs.fat -F32 /dev/nvme0n1p1
mkfs.ext4 /dev/nmve0n1p2
now create temporary directory to mount this partitions:
mkdir /mnt/archlinux
mount /dev/nmve0n1p2 /mnt/archlinux
mkdir /mnt/archlinux/boot
mount /dev/nvme0n1p1 /mnt/archlinux/boot
now we copy all content from old disk to the new one mount at /mnt/archlinux using rsync:
rsync -av /* /mnt/archlinux --exclude /sys --exclude /proc --exclude /media --exclude /mnt/archlinux
when rsync finish, use arch-chroot to enter the new drive environment:
arch-chroot /mnt/archlinux
identify new boot and root partitions UUID:
blkid|grep -e /dev/nvme0n1p1 -e /dev/nvme0n1p2
update /etc/fstab and change the UUID for your boot and root partitions:
UUID=F9D0-C830                            /boot vfat  defaults 1 2
UUID=80cc0cfd-a13f-47a2-9150-90cf8773662c  /    ext4  defaults 0 2
create the following directories:
mkdir /sys /proc /media
we need to install grub on new drive:
grub-install --target=x86_64-efi --efi-directory=/boot --bootloader-id=ARCH_DESKTOP /dev/nvme0n1
now create grub configuration:
grub-mkconfig -o /boot/grub/grub.cfg
exit chroot:
exit
umount partition mounted on /mnt/archlinux:
umount /mnt/archlinux/boot
umount /mnt/archlinux
reboot the system:
reboot

Latest revision as of 17:43, 27 October 2023

speed test

identify drive letter:

sudo fdisk -l|grep Samsung -B 1

test hard drive speeds:

sudo hdparm -Tt /dev/nvme1n1

install fio disk benchmark tool:

sudo pacman -S fio

perform disk read benchmark with fio:

fio --randrepeat=1 --ioengine=io_uring --direct=1 --gtod_reduce=1 --name=test --filename=test --bs=4k --iodepth=64 --size=4G --readwrite=randread

perform disk write benchmark with fio:

fio --randrepeat=1 --ioengine=io_uring --direct=1 --gtod_reduce=1 --name=test --filename=test --bs=4k --iodepth=64 --size=4G --readwrite=randwrite

or perform both read and write disk benchmark with fio:

fio --randrepeat=1 --ioengine=io_uring --direct=1 --gtod_reduce=1 --name=test --filename=test --bs=4k --iodepth=64 --size=4G --readwrite=randrw --rwmixread=75

install graphical tool kdiskmark with flatpak:

flatpak install flathub io.github.jonmagon.kdiskmark

install iotop to verify io usage:

sudo pacman -Sy iotop --noconfirm

execute iotop as root:

sudo iotop -o

temperature

install nvme-cli tool using pacman:

sudo pacman -Sy nvme-cli

display nmve drive health and temperatures:

sudo nvme smart-log /dev/nvme0

or install smartmontools:

sudo pacman -S smartmontools --noconfirm

use smartmontools to show nvme health and temperatures:

sudo smartctl -a /dev/nvme0

another tool to watch nvme temperatues is lm_sensors:

sudo pacman -S lm_sensors --noconfirm

watch temperatures with lm_sensors:

sudo sensors

stress test

install stress to perform stress test to disk:

sudo pacman -S stress --noconfirm

perform disk io stress test:

stress --io 4

watch disk temperatures with smartctl:

smartctl -a /dev/nvme0

update firmware

first, unmount any filesystem mounted on the drive or if it’s your boot drive, you would need to boot using a livecd.

navigate to https://bit.ly/3nB8vXb in firmware find your drive model and download the iso:

wget https://download.semiconductor.samsung.com/resources/software-resources/Samsung_SSD_990_PRO_1B2QJXD7.iso

mount the iso:

mkdir /mnt/iso
mount -o loop Samsung_SSD_990_PRO_1B2QJXD7.iso /mnt/iso

decompress initrd on temp directory:

mkdir /tmp/samsung 
cd /tmp/samsung
gzip -dc /mnt/iso/initrd | cpio -idv --no-absolute-filenames

enter the following directory and execute fumagician:

cd /tmp/samsung/root/fumagician
./fumagician

from old drive to new one

first identify the drive letter:

fdisk -l|grep Samsung -B 1

next create the new partitions on drive using parted:

parted /dev/nvme0n1

inside parted create the partition table as gpt then boot and root partitions:

mklabel gpt
mkpart primary 1 1G
mkpart primary 1G 100%

inside parted set partition 1 as bootable:

set 1 boot on
set 1 bios_grub on
quit

format partitions with filesystems:

mkfs.fat -F32 /dev/nvme0n1p1
mkfs.ext4 /dev/nmve0n1p2

now create temporary directory to mount this partitions:

mkdir /mnt/archlinux
mount /dev/nmve0n1p2 /mnt/archlinux
mkdir /mnt/archlinux/boot
mount /dev/nvme0n1p1 /mnt/archlinux/boot

now we copy all content from old disk to the new one mount at /mnt/archlinux using rsync:

rsync -av /* /mnt/archlinux --exclude /sys --exclude /proc --exclude /media --exclude /mnt/archlinux

when rsync finish, use arch-chroot to enter the new drive environment:

arch-chroot /mnt/archlinux

identify new boot and root partitions UUID:

blkid|grep -e /dev/nvme0n1p1 -e /dev/nvme0n1p2

update /etc/fstab and change the UUID for your boot and root partitions:

UUID=F9D0-C830                             /boot vfat  defaults 1 2
UUID=80cc0cfd-a13f-47a2-9150-90cf8773662c  /     ext4  defaults 0 2

create the following directories:

mkdir /sys /proc /media

we need to install grub on new drive:

grub-install --target=x86_64-efi --efi-directory=/boot --bootloader-id=ARCH_DESKTOP /dev/nvme0n1

now create grub configuration:

grub-mkconfig -o /boot/grub/grub.cfg

exit chroot:

exit

umount partition mounted on /mnt/archlinux:

umount /mnt/archlinux/boot
umount /mnt/archlinux

reboot the system:

reboot