Applications like Premiere Pro are extremely complex, with hundreds - if not thousands - of various of files working together each time you work on a project. Premiere Pro defaults to storing cache and scratch files in decent locations, but sometimes it can be beneficial to move them to a different area of your system.
Processors and video card may be the most discussed hardware when designing a video editing workstation, but the type and configuration of your local storage drives is also a very important consideration. Not only can a proper storage setup help your workstation perform at its best, but it can also help increase the longevity and reliability of your system.
DPX (Digital Picture Exchange) is a uncompressed, lossless image format that is is popular in the film and VFX industry and is often the go-to choice in high-end workflows where you need the best possible quality. The downside to DPX is that since it is uncompressed, the total file size can be absolutely massive - up to 266GB per minute. What kind of storage setup do you need to be able to edit DPX files, and do you also need a powerful CPU and GPU as well?
While what CPU or video card you should purchase tends to be at the forefront of any workstation hardware discussion, storage is often just as important. While there is little existing evidence that Lightroom benefits from particularly fast storage drives for your project files, considering how fast modern hardware has become we felt the need to look into it in more detail.
Having a fast disk cache plays a very important role in After Effects, allowing you to store frames you have already rendered for playback at a later time. In this article we will be looking at how different speeds of cache drives impact the performance of After Effects.
M.2 drives like the Samsung 960 and 950 Pro can give incredible performance, but under sustained loads they can get hot enough that the drive needs to throttle the performance to stay within safe temperature limits. In this article, we will not only compare the 960 Pro to the 950 Pro in terms of raw performance, but also in terms of how quickly each drive will throttle.
More than almost any other hardware component, the advice you will often see concerning how many and what kind of storage drive to use along with the best way to configure them is based either on anecdotal evidence or information that is vastly out of date. In this article, we will be benchmarking a variety of drive types and configurations to see what actually makes a difference when working in Premiere Pro.
M.2 drives like the Samsung 950 Pro can give incredible performance, but they can sometimes run hot enough that the drive needs to throttle the performance to stay under safe temperatures. For those that need a M.2 drive to run at full speed for longer periods of time, we decided to run some quick tests to compare a number of different M.2 drive cooling methods.
M.2 drives like the Samsung 950 Pro can give incredible performance, but they can sometimes run hot enough that the drive needs to throttle the performance to stay under safe temperatures. To help you decide if it is something you need to worry about, we decided to benchmark a Samsung 950 Pro in a variety of M.2 slot locations with a range of system configurations to show how much a Samsung 950 Pro might throttle in your system.
At Puget Systems, we spend a a lot of effort tracking the failure rates of all our products to make sure that each is living up to our quality standards. Today, we want to publish a short article to specifically call out one line of products for being extremely reliable: Samsung SATA SSDs.
The Samsung 950 Pro is the successor to the Samsung SM951 and their first retail M.2 drive. While this drive does run cooler than previous M.2 drives from Samsung, it still has some throttling issues due to high temperatures. Even with that, this drive has incredible sequential read and write performance at an attractive price point.
The Samsung SM951 is the successor to what was at one time the fastest consumer M.2 drive - the Samsung XP941. This drive has incredible sequential read and write performance, but suffers from extremely high temperatures under load.
WD Green drives have a long been a staple in our quiet systems. However, the NAS and RAID oriented Red drives have a few features that make them much more attractive while being just as quiet. In this article, we will go over the differences between Green and Red drives to show why we consider Red drives to be the better choice than Green drives in most quiet systems.
Here at Puget Systems, almost half of the traditional hard drives we sell are Western Digital Black drives. However, the enterprise-class RE drives have many features that make them much more attractive, but are also more expensive. In this article, we will go over the differences between Black and RE drives to show why we consider RE drives to be the better choice than Black drives in most systems.
M.2 is a new form of connectivity that allows a SSD to connect directly to the PCI-E bus allowing for theoretical speeds as high as 2GB/s. However, M.2 drives are complicated in that they allow for a variety of physical dimensions, connectors, and even multiple logical interfaces. To help our customers understand the nuances of M.2 drives, we decided to publish this overview of M.2 SSDs.
M.2 is a new form of connectivity for SSD drives that allows them to connect directly to the PCI-E bus rather than going through a SATA controller. By bypassing the SATA controller a M.2 drive can have a theoretical maximum throughput as high as 2GB/s which is over three times faster than the 600MB/s SATA is limited to! Unfortunately, temperature and motherboard compatibility is a major issue with these M.2 drives.
A SED (or Self-Encrypting Drive) is a type of hard drive that automatically and continuously encrypts the data on the drive without any user interaction. In fact, many drives currently on the market are SEDs, although the majority of users do not know the benefits of a SED, let alone how to take advantage of those benefits.
At Puget Systems, we've been using LSI RAID cards for a number of years now and have always been very happy with the quality of both the controllers and the MegaRAID software. The new 9361-8i and 9341-8i RAID controllers from LSI continue in their predecessor's footsteps but add PCI-E 3.0 support and the new mini-SAS HD SFF8643 12GB/s connector.
Since the release of SATA 6GB/s, there has been some confusion regarding the necessity of using a specific SATA 6Gb/s cable for SATA 6Gb/s drives. We have addressed this in previous articles, but enough time has gone by that we wanted to take another look to see if anything has changed since we last examined the issue.
Solid state discs are amazingly fast compared to their more traditional platter counterparts, but we keep hearing over and over on the web that people are getting lower performance than they expected based on the manufacturer's advertised performance numbers. In this article, we will be looking at why this is and whether it is normal or or not.
SSD caching is not new, but is something we have not inspected closely since its introduction with the Z68 chipset. In this article, we will be answering the questions: What is SSD caching? How do you set up and configure SSD caching? And what kind of performance improvements you should expect by using it.
In this article, we will be reviewing the speeds of each of the new Intel SSDs (60GB, 120GB, 180GB, 240GB and 480GB) codenamed Cherryville. Intel boasts speeds greater than 500MB/s for read and write, but it is common in the industry for the advertised speeds to be idealized. Because of this, we will be performing our own benchmark testing to find that real world speed of these new drives.
Anyone who has used a digital camera or smart phone has probably seen flash memory cards - small, removable devices on which a variety of data can be stored. Card readers in computers allow easy access to read those memory cards, or write new data to them, but the process can be slow for folks like photographers, who often work with multiple cards each full of image files. Can the move to a faster interface for card readers, like USB 3.0, improve performance substantially?
The USB 3.0 Boost software from Asus is designed to take advantage of the recently introduced UASP (USB attached SCSI protocol) to give a performance boost to supported USB 3.0 devices. In this article we will take a look at exactly how much of a performance increase an USB 3.0 external hard drive can achieve using this software.