The only caveat so far is that a Belkin USB-C cable I have here refused to recognize the TDBT device. The enclosure, installation instructions, parts, are all top quality and the heat sink works. I've since switched to the TDBT M.2 NVMe SSD Enclosure (using the JMicron JMS583 controller), which is working great.(turn off SP3, hold volume up + power, then check off secure boot) Go back into Windows, and go to Disk Management. I've read that SMS works in both channels but for some reason booting from the optical drive SATA channel is unreliable - or so they. Where to install the SSD and HDD It sounds like the consensus of opinion is that the SSD should go in the old HDD bay and the secondary drive - in my case a 1TB 7200rpm HDD - should go in the optical drive bay. This tutorial has been streamlined and updated to be more. This is a much-requested follow up to our original Windows 10/external drive tutorial posted back in 2017. (Note that I'm not in anyway affiliated with TDBT, nor do I have an affiliate link with Amazon.)Windows external SSD on Mac.
Dual Boot Ssd Windows With Secondary Drive For Storage Crack Open TheXP941 or Samsung SM951 provide boot support on mac OS / OSX versions up to Sierra.I recently upgraded the SSD in my main desktop computer and found myself with a spare 512GB M.2 NVMe SSD. If you need help, the manufacturer’s website has instructions.Original Post: So this turned out to be fun, and productive - on several levels.A solid-state drive ( SSD) is a solid-state storage device that uses. Turn on the power, and log in to Windows. Crack open the case, put in the new hard drive, attach the cables, and secure the drive, probably with screws.![]() If a UEFI ESP partition already exists, the installing OS will typically give you a choice to overwrite, or modify boot loaders in the ESP with the option of creating a ‘dual boot’ installation. So clearly in terms of storage and bandwidth, there’s nothing here that would interfere with comfortable boot times and data transfer rates for any modern OS.There’s only fly in the ointment, and that is that during most ‘normal’ operating system (OS) installations - the OS being installed expects to either create, or find just one master boot record (MBR) or just one Unified Extensible Firmware Interface (UEFI) system partition (ESP). Regular SATA-based external SSDs will deliver transfer rates of around 500MB/s, while new M.2 NVMe to SATA bridge enclosures will top out at around 1GB/s (that’s one gigabyte per second, not gigabits). With USB 3.0 to 3.1 Gen 2 supporting transfer speeds that now range from 5Gbits/s to 10Gbits/s - things are a bit different. At the time, USB 2.0, Firewire or even e-SATA meant that this wasn’t really practical. Most of what follows is roughly aligned with Nicholas’s post.Like Nicholas, the machine I’m using to do all of this is a Windows 10 computer, and so if this is the same for you, then section F below will almost certainly apply and your computer will be left with a ‘dual boot’ configuration and Grub menu prompt at boot. Not what we want.I did a bunch of reading and found the main Grub docs that describe how to repair/reinstall grub, but more importantly, I found Nicholas Dionysopoulos's post here - which was brilliant and paved the way. Not only is the external drive dependent on the boot information present in the host computer system partitions, but in most cases the computer won't boot if the external drive is removed. Mac installer for windowsYou can create this from a Windows computer using Rufus or from an existing Ubuntu installation with ‘Startup Disk Creator’ - see How to Create a Bootable Linux USB Flash Drive, the Easy Way. A bootable USB thumb drive with the Ubuntu 19.10 installation media. Note that we’re going to create a UEFI bootable portable drive, and so any computer you plug this drive into must be relatively modern with support for UEFI as well as have pretty good hardware support from Ubuntu / Linux. And as with any OS / disk / partition-level activity, make sure you have backups of everything before you start.Here are the steps I went through in order to create a truly portable external SSD drive with Ubuntu 19.10 installed. GParted is the partition manager application we’re going to use to prepare the portable hard drive. Plug in your target portable external hard drive. Boot your computer using the thumb drive prepared above, and choose ‘Try Ubuntu’. Note that we’ll re-partition this drive, so backup any data that may already be on the drive as it will be lost during re-partitioning. Your target portable external hard drive (HDD, SATA SSD, M.2 NVMe SSD etc.). Choose the ‘Try Ubuntu’ option. Unmount (right click and unmount) any currently mounted partitions on this drive and delete all partitions (again - be double sure you’re working on the correct drive).My unpartitioned external hard drive, showing up as /dev/sdb C. In the screenshot below - my external and portable drive is identified as /dev/sdb - and it is currently unpartitioned. It’s important that you correctly identify this drive as we’re going to re-partition the drive. Once the partition has been created - right click on the newly created partition and select ‘Manage Flags’. Click on the green checkmark to apply the pending operation. Again using GParted, right click on the unallocated volume, choose New, and create a 100MB fat32 partition. Next create an 8GB linux-swap partition. In fact, creating this partition as a working boot volume under EFI using GRUB is the heart of our problem in trying to create a truly portable external OS drive, and so there are a few more steps to complete before we can achieve this. When we're done, this partition will become the system ‘boot’ partition, and will include EFI information including the GNU GRUB boot loader. In this example my external drive is identified as /dev/sdb with partitions located on /dev/sdb1 (fat32 system/boot), /dev/sdb2 (linux-swap), /dev/sdb3 (ext4 root volume). My final partition arrangement on the external hard drive.With the external drive all prepared, we now need to make a couple of notes, specifically - note the device and partition numbers. Apply all pending operations and you should now have a disk partition layout that looks similar to the screenshot below. Create an ext4 partition of whatever size you require for your system. Finally, create the main or root / partition for our target portable drive. A rule of thumb for modern personal computers with plenty of RAM is to create a swap partition about ½ the size of available RAM if you DO NOT plan on supporting full hibernate (most computers will still suspend or sleep fine). This will most likely be /dev/sdb. When we install Ubuntu 19.10 - we’ll mainly follow the instructions here - How to install Ubuntu on portable external Hard Drive? - however, during installation - Ubuntu 19.10 will use the first UEFI system partition it finds to install the modified bootloader, and so the instructions in the previous link that specify the following: “ Very important: change the installation of the bootloader to the USB HD. Note first however, that in two attempts at this process, the system volume of the computer I was using for this process (my Windows 10 computer) was modified and left with a dual boot installation, which is NOT what we want (as that would effectively ‘bind’ our external hard drive to this computer). In my case: dd8eed75-c315-420f-b208-92301cfbf300.We’re now almost ready to install Ubuntu 19.10 on this drive. Now do the same for the root volume - the ext4 partition on /dev/sdb3 - double click on the partition and note the UUID. Double click on the fat32 system partition at /dev/sdb1, and from the ‘Information about’ screen that pops up - make a note of the UUID. You should still be booted from your Ubuntu Installation media thumb drive.Close GParted and then double click on the Install Ubuntu 19.10 icon on your desktop. As per the link in the previous section, we’re going to start a normal installation followed by ‘Something else’ when we get to the partition selection step. Install Ubuntu 19.10With your external target drive all prepared we’re now ready to install Ubuntu 19.10. The remaining steps will show how to fix this, as well as how to correctly install a working GRUB bootloader onto our newly created /dev/sdb1 system fat32 ESP partition. The only scenario I’ve not yet tried to prevent this is unplugging, or removing the computer’s internal hard drive before installing Ubuntu onto our target external drive. (If you do this by accident, it's easily fixed).” - simply won’t work.
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