Stații de lucru

OS - Windows 8718 Solutii

Reguli si plangeri 9 Solutii

OS - OS X 407 Solutii

Reguli de configurare 11 Solutii

Licentiere 18 Solutii

Securitate 179 Solutii

Copie de rezerva (Backup) 68 Solutii

Antivirus 71 Solutii

Aplicatii specifice 4918 Solutii

Hardware 288 Solutii

How to format a drive on Windows

Open Disk Management:

    • Right-click the Start button and select Disk Management or press Windows + X and choose Disk Management.

Select the Drive to Format:

    • In the Disk Management window, locate the drive you want to format (it will be listed as a volume, like “Disk 1”, “Disk 2”, etc.)
    • Right-click on the drive and select Format.

Choose Formatting Options:

    • You’ll be prompted to select the following options:
      • Volume Label: Name the drive (optional)
      • File System: Choose the file system (typically NTFS for Windows drives)
      • Allocation Unit Size: You can usually leave this at the default setting
      • Quick Format: Check this option to format the drive more quickly (recommended for most cases).

Start the Format:

    • After adjusting your options, click OK and confirm that you want to format the drive. The process will begin, and the drive will be wiped clean and formatted with the selected file system.

Finish:

    • Once the formatting process is complete, the drive will be ready for use.
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RDNA 4 versus RDNA 3

RDNA 4 is AMD’s newest GPU architecture, driving the Radeon RX 9070 and 9070 XT with major improvements in AI and ray tracing. It delivers twice the AI performance, features 3rd Gen Raytracing Accelerators, and optimizes memory and shader handling. Additionally, it enhances video quality and supports high-resolution displays, offering a significant leap over RDNA 3.

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Cum gasim toate marcajele web de pe statia noastra

WebBrowserBookmarksView este un instrument simplu pentru Windows care afisează detaliile tuturor marcajelor stocate în browserele web Chrome, Edge si Firefox. Pentru fiecare marcaj, sunt afișate urmatoarele informatii: Titlu, URL, Numele folderului, Calea folderului, Pozitie, Ora creata, Ora modificat (numai Firefox), ID, Ghid, Browser web și Fișier de marcaje.
WebBrowserBookmarksView ne permite să incarcam lista de marcaje din sistemul nostru curent care rulează (utilizator conectat curent sau toate profilurile de utilizator). De asemenea, putem exporta lista de marcaje in fisierul csv/tab-delimited/html/xml, sa copiem marcajele în clipboard si apoi sa le lipim in Excel sau in alta aplicatie.

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PCIe Lane Distribution

No matter what the socket or chipset or processor, PCIe slots meant for graphics cards are always given their own PCI Express lanes. In the older northbridge/southbridge chipset setup, PCI Express lanes meant for the graphics card always went through northbridge, which is the faster chipset. Normally northbridge gave 16 lanes in a x16, x8/x8, x8/x4/x4, or x4/x4/x4/x4 configuration. Higher end chipsets and processors will have more lanes. To summarize in a list:

  • Intel’s LGA115x processors
    • 16 lanes configurable in x16, x8/x8, or x8/x4/x4
  • Intel’s HEDT processors
    • Up to 40 lanes. Intel officially says this can either be a x16/x16/x8 or x8/x8/x8/x8/x8 configuration. Lower end processors will only have 28 lanes, which can only be x16 or up to x8/x8/x8.
  • AMD AM3+ and AM4 processors (FX and Ryzen)
    • 16 lanes configurable in x16, x8/x8, or x8/x4/x4
    • AMD claims that Ryzen processors have 24 PCIe lanes, but 4 lanes are dedicated to the chipset and 4 are for general purpose use. The general purpose use ones tend to be allocated for NVMe storage, but it really depends on the motherboard manufacturer.
  • AMD APUs
    • 4 or 8 lanes are provided for a single GPU configuration
    • Zen based APUs have 4 general purpose lanes
  • AMD Threadripper
    • Up to 60 PCIe lanes. AMD claims there are 64 total, but 4 lanes are dedicated to the chipset. However in some configurations, you may be limited down to 48 PCIe lanes for graphics if you are using NVMe storage.

The chipset provides additional PCI Express lanes for other use

  • Any time you see a smaller PCIe slot, like an x1 or x2 slot, they will route to the chipset. So if you see a motherboard with something like “8 PCIe lanes” or “20 PCIe lanes”, it’s coming from the chipset, not the CPU.
  • Peripherals all go through the chipset/southbridge’s PCIe lanes, not the processors/northbridge’s
  • Things like USB ports, SATA, Ethernet, etc. all go through the PCIe lanes that the chipset provides, if the chipset doesn’t provide the feature natively.
  • Pay attention to what NVMe does to your system
  • NVMe requires PCIe lanes; where it gets them from depends on the platform you go with.
  • Intel’s mainstream boards (LGA115x)
    • These take lanes from the chipset. This may disable other I/O like a PCIe slot or a couple of SATA ports
  • Intel’s HEDT boards (LGA 20xx)
    • These primarily take lanes from the CPU
  • AMD prior to AM4
    • These take lanes from the Southbridge
  • AMD mainstream boards (AM4)
    • All processors have 4 lanes dedicated for general use. This tends to be wired for NVMe storage, but it depends on the motherboard. If there is more than one M.2 slot for NVMe use, the other ones will use lanes from the chipset similar to Intel’s mainstream boards.
  • AMD HEDT
    • These primarily take lanes from the CPU.
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