# Do not modify this file! It was generated by ‘nixos-generate-config’ # and may be overwritten by future invocations. Please make changes # to /etc/nixos/configuration.nix instead. { config, lib, pkgs, modulesPath, ... }: { imports = [ (modulesPath + "/installer/scan/not-detected.nix") ]; boot.initrd.availableKernelModules = [ "nvme" "xhci_pci" "ahci" "usb_storage" "usbhid" "sd_mod" ]; boot.initrd.kernelModules = [ ]; boot.kernelModules = [ "kvm-amd" "sg" ]; boot.extraModulePackages = [ ]; # Bootloader. boot.loader.systemd-boot.enable = true; boot.loader.efi.canTouchEfiVariables = true; # Enable OpenGL hardware.graphics.enable = true; # Load nvidia driver for Xorg and Wayland services.xserver.videoDrivers = ["nvidia"]; # Use X instead of wayland for gaming reasons services.xserver.displayManager.gdm.wayland = false; # install graphics drivers hardware.nvidia = { # Modesetting is required. modesetting.enable = true; # Nvidia power management. Experimental, and can cause sleep/suspend to fail. # Enable this if you have graphical corruption issues or application crashes after waking # up from sleep. This fixes it by saving the entire VRAM memory to /tmp/ instead # of just the bare essentials. powerManagement.enable = false; # Fine-grained power management. Turns off GPU when not in use. # Experimental and only works on modern Nvidia GPUs (Turing or newer). powerManagement.finegrained = false; # Use the NVidia open source kernel module (not to be confused with the # independent third-party "nouveau" open source driver). # Support is limited to the Turing and later architectures. Full list of # supported GPUs is at: # https://github.com/NVIDIA/open-gpu-kernel-modules#compatible-gpus # Only available from driver 515.43.04+ # Currently alpha-quality/buggy, so false is currently the recommended setting. open = false; # Enable the Nvidia settings menu, # accessible via `nvidia-settings`. nvidiaSettings = true; # Optionally, you may need to select the appropriate driver version for your specific GPU. package = config.boot.kernelPackages.nvidiaPackages.production; }; fileSystems."/" = { device = "/dev/disk/by-uuid/8be49c65-2b57-48f1-b74d-244d26061adb"; fsType = "ext4"; }; fileSystems."/boot" = { device = "/dev/disk/by-uuid/3006-3867"; fsType = "vfat"; options = [ "fmask=0022" "dmask=0022" ]; }; fileSystems."/mnt/leyla_home" = { device = "server.arpa:/home/leyla"; fsType = "nfs"; options = [ "x-systemd.automount" "user" "nofail" "soft" "x-systemd.idle-timeout=600" "fsc" ]; }; fileSystems."/mnt/share_home" = { device = "server.arpa:/home/share"; fsType = "nfs"; options = [ "x-systemd.automount" "user" "nofail" "soft" "x-systemd.idle-timeout=600" "fsc" ]; }; fileSystems."/mnt/docker_home" = { device = "server.arpa:/home/docker"; fsType = "nfs"; options = [ "x-systemd.automount" "noauto" "x-systemd.idle-timeout=600" ]; }; swapDevices = [ ]; # Enables DHCP on each ethernet and wireless interface. In case of scripted networking # (the default) this is the recommended approach. When using systemd-networkd it's # still possible to use this option, but it's recommended to use it in conjunction # with explicit per-interface declarations with `networking.interfaces..useDHCP`. networking.useDHCP = lib.mkDefault true; # networking.interfaces.enp42s0.useDHCP = lib.mkDefault true; # networking.interfaces.wlp5s0.useDHCP = lib.mkDefault true; networking.hostName = "twilight"; # Define your hostname. nixpkgs.hostPlatform = lib.mkDefault "x86_64-linux"; hardware.cpu.amd.updateMicrocode = lib.mkDefault config.hardware.enableRedistributableFirmware; }