Subject: Memory | August 15, 2014 - 12:24 PM | Jeremy Hellstrom
Tagged: ddr4, corsair, Vengeance LPX, Dominator Platinum
FREMONT, California — August 14, 2014 — Corsair, a leader in high-performance PC hardware, today announced the availability of Corsair Vengeance LPX and Dominator Platinum lines of high-speed DDR4 computer memory. This new generation of memory ushers in a new age of ultrafast computing with optimizations such as increased DRAM bandwidth, higher bus frequencies, lower power usage, and higher reliability.
Corsair Vengeance LPX and Dominator Platinum DDR4 memory kits are validated with motherboard partners (ASUS, ASRock, EVGA, Gigabyte, and MSI) and use the new XMP 2.0 profile to deliver easy, reliable overclocking performance with the upcoming next-generation Intel® X99 platforms and Intel® Core™ i7 processors (codenamed Haswell-E). The Vengeance LPX and Dominator Platinum memory kits are supplied with a limited lifetime warranty.
Vengeance LPX memory is a new Corsair memory line designed for high-performance overclocking with a low-profile heatspreader is made of pure aluminum for faster heat dissipation and the eight-layer PCB helps manage heat and provides superior overclocking headroom. The memory kits are available in black, red, white, or blue so that enthusiasts, gamers, and modders can add a touch style to match the color scheme of their PC.
Like the DDR3 memory versions, the new Dominator Platinum DDR4 memory kits have a striking industrial design for good looks, patented DHX technology for cooler operation, user-swappable colored “light pipes” for customizable downwash lighting, and Corsair Link compatibility for real-time temperature monitoring. Dominator Platinum memory is built with hand-screened ICs, undergoes rigorous performance testing, and incorporates state-of-the-art cooling for reliable performance in demanding environments.
Vengeance LPX and Dominator Platinum DDR4 Specifications
- Unbuffered DDR4 SDRAM in 288-pin DIMM
- Capacities at launch: 8GB (2x4GB), 16GB (4x4GB), 32GB (4x8GB) and 64GB (8x8GB)
- Speeds at launch: 2666MHz, 2800MHz, and 3000MHz
- Intel XMP 2.0 (Extreme Memory Profile) support
DDR4 is faster. Even at the baseline speed of DDR4 delivers twice the bandwidth with 2133 MT/s (million transfers per second) compared with the base DDR3 1600 MT/s. With optimizations games and applications have the potential to load faster and run more smoothly.
DDR4 uses a lot less power and runs cooler.
With each new generation of CPU and GPU architecture, system power consumption and heat generation become more and more important. DDR4 modules operate at an ultra-low standard 1.2 volts compared to the 1.5 and 1.65 volts of DDR3 memory, allowing DDR4 memory to consume significantly less power and generate less heat.
DDR4 memory modules can get bigger.
DDR3 is limited to 8GB modules for a maximum of 32GB on standard four-socket motherboards. DDR4 will have the ability to enable 16GB per module by 2015. A motherboard with eight memory slots will be upgradeable to an amazing 128GB or DDR4 memory.
Pricing, Availability, and Warranty
Corsair Vengeance LPX Series and Dominator Platinum DDR4 memory kits will be available at the end of August from Corsair's worldwide network of authorized distributors and resellers. The Vengeance LPX and Dominator Platinum memory kits are supplied with a limited lifetime warranty and are backed up by Corsair's customer service and technical support.
Subject: Memory | August 12, 2014 - 02:09 PM | Jeremy Hellstrom
Tagged: XPG V3, DDR3 3100, adata
Currently available for a mere $870 the 8GB DDR3-3100 dual channel kit from ADATA with timings of 12-14-14-36 has to be among the most expensive consumer RAM available on the market. We can only hope that DDR4 does not arrive at a similar speed and price point but instead with slower clocked DIMMs at a more reasonable price and with improvements to performance. Legit Reviews' testing showed that these DIMMs offer almost no benefit over DDR3-1600 with tighter timings in real usage but you can get higher scores on synthetic benchmarks. If benchmarking better than the competition and swap-able heatspreaders with different colours is attractive to you then you could pick up these DIMMs, otherwise you really won't be getting value for your money.
"Gone are the days of being on the cutting edge of memory with DDR3 running at 2133MHz! These days running 2133MHz memory is pretty much considered the norm for a high end gaming rig. If you’re looking to be on the bleeding edge of memory speeds you’re going to be limited to only one or two kits. Today we have one of the fastest kits available on the market to put through the paces, the ADATA XPG V3 DDR3 3100MHz 8GB memory kit. Read on to see if this big dollar kit is worth nearly a thousand dollars."
Here are some more Memory articles from around the web:
- GeIL EVO POTENZA 16GB 2400MHz @ eTeknix
- Kingston HyperX Fury 8GB 1866MHz @ eTeknix
- Patriot Memory 8GB DDR3 1600MHz Viper 3 LP Memory Kit (PVL38G160C9K) Review @ Madshrimps
- GeIL DRAGON RAM 8GB 1600MHz @ eTeknix
Subject: General Tech, Motherboards, Memory | July 6, 2014 - 03:53 AM | Scott Michaud
Tagged: overclocking, memory, gigabyte
About a week ago, HWBOT posted a video of a new DDR3 memory clock record which was apparently beaten the very next day after the movie was published. Tom's Hardware reported on the first of the two, allegedly performed by Gigabyte on their Z97X-SOC Force LN2 Motherboard. The Tom's Hardware article also, erroneously, lists the 2nd place overclock (then 1st place) at 4.56 GHz when it was really half that, because DDR is duplex (2.28 GHz). This team posted their video with a recording of the overclock being measured by an oscilloscope. This asserts that they did not mess with HWBOT.
The now first place team, which managed 2.31 GHz on the same motherboard, did not go to the same level of proof, as far as I can tell.
This is the 2nd fastest overclock...
... but the fastest to be recorded with an oscilloscope that I can tell
Before the machine crashes to a blue screen, the oscilloscope actually reports 2.29 GHz. I am not sure why they took 10 MHZ off, but I expect it is because the system crashed before HWBOT was able to record that higher frequency. Either way, 2.28 GHz was a new world record, and verified by a video, whether or not it was immediately beat.
Tom's Hardware also claims that liquid nitrogen was used to cool the system, which brings sense to why they would use an LN2 board. It could have been chosen just for its overclocking features, but that would have been a weird tradeoff. The LN2 board doesn't have mounting points for a CPU air or water cooler. The extra features would have been offset by the need to build a custom CPU cooler, to not use liquid nitrogen with. It is also unclear how the memory was cooled, whether it was, somehow, liquid nitrogen-cooled too, or if it was exposed to the air.
Subject: Memory | June 11, 2014 - 07:26 PM | Jeremy Hellstrom
Tagged: CAS latency, ddr3-1600, ddr3-1866
X-bit Labs did testing of a variety of memory speeds on Haswell to determine if there is a point of diminishing returns at which point your well earned money is no longer bringing you better performance. By setting up tests of two different DIMMs at set speeds, in this case DDR3-1600 and DDR3-1866 and varying the CAS Latency they tested to see if higher speeds or lower latency gave the best performance. Using both synthetic benchmarks as well as gaming tests they determined that frequency is the key to better performance which makes sense considering the theoretical top frequency of 2933 MHz. Check out all the benchmarks in their full review.
"The development of the new processor microarchitectures goes on and frequencies of contemporary types of DDR3 SDRAM grow as well. Is there any sense in using high-speed memory with modern Haswell processors? To answer this question, we have analyzed DDR3 frequency and timings influence on LGA 1150 platform performance."
Here are some more Memory articles from around the web:
- G.Skill ARES F3-2400C11D-8GAB 2x 4GB DDR3 @ techPowerUp
- Team Group Xtreem 32GB PC3 17000 DDR3 2133 Memory Kit Review @ Madshrimps
- Kingston HyperX Fury 8GB DDR3-1866 CL10 @ Funky Kit
- ADATA XPG V2 2600 MHz RAM Review @ TechwareLabs
Subject: General Tech, Memory, Storage | June 9, 2014 - 11:08 PM | Scott Michaud
Tagged: kingston, ssd, hyperx
Kingston, known primarily for RAM, flash drives, and SSDs, discussed the health of their company. VR-Zone reported on the interview and highlighted the company's sentiments about the PC industry. Long story short, Kingston sees growth in sales of PC gaming hardware -- apparently 20% year-over-year. The company expects that this growth comes primarily from SSD upgrades, either from rotating media or, they claim, replacing years-old, entry-level SSDs with more modern (probably in both speed and size) options.
Nathan Su, APAC (Asia-Pacific) director of Kingston, believes that "many users" have experienced low-tier SSDs and, it seems, would be willing to invest in the full thing. He does not clarify what he means, whether he is talking about SSD caching, or just a really small (or slow) SSDs from drive generations past.
There is a bit of a concern that SSD prices will continue to fall, with some drives reaching under 40c/GB in recent sales. As a consumer, I (selfishly) hope that prices continue to drop, while still remaining profitably sustainable for the manufacturers. Hopefully Kingston is accounting for this and will continue to see growth at the same time.
Subject: Memory, Storage | June 4, 2014 - 11:15 AM | Sebastian Peak
Tagged: ssd, solid state drive, pcie, pci-e ssd, memory, M.2, ddr4, computex 2014, computex, adata, 2tb ssd
ADATA has been showing off some upcoming products at Computex, and it's all about DRAM.
We'll begin with an upcoming line of PCIe Enterprise/Server SSDs powered by the SandForce SF3700-series controller. We've been waiting for products with the SF3700 controller since January, when ADATA showed a prototype board at CES, and ADATA is now showcasing the controller in the "SR1020" series drives.
The first is a 2TB 2.5" drive, but the interface was not announced (and the sample on the floor appeared to be an empty shell). The listed specs are performance up to 1800MB/s and 150K IOPS, with the drive powered by the SF-3739 controller. Support for both AHCI and NVMe is also listed, along with the usual TRIM, NCQ, and SMART support.
Another 2TB SSD was shown with exactly the same specs as the 2.5" version, but this one is built on the M.2 spec. The drive will connect via 4 lanes of Gen 2 PCI Express. Both drives in ADATA's SR1020 PCIe SSD lineup will be available in capacities from 240GB - 2TB, and retail pricing and availability is forthcoming.
Continuing the DRAM theme, ADATA also showed new DDR4 modules in commodity and enthusiast flavors. Both of the registered DIMMs on display (an ultra-low profile DIMM was also shown) had standard DDR4 specs of 2133MHz at 1.2V, but ADATA also showed some performance DDR4 at their booth.
A pair of XPG Z1 DDR4 modules in action
No pricing or availability just yet on these products.
Ultra-Speed RAM, APU-Style
In our review of the Kingston HyperX Predator 2666MHz kit, we discovered what those knowledgeable about Intel memory scaling already knew: for most applications, and specifically games, there is no significant advantage to increases in memory speed past the current 1600MHz DDR3 standard. But this was only half of the story. What about memory scaling with an AMD processor, and specifically an APU? To find out, we put AMD’s top APU, the A10-7850K, to the test!
Ready for some APU memory testing!
AMD has created a compelling option with their APU lineup, and the inclusion of powerful integrated graphics allows for interesting build options with lower power and space requirements, and even make building tiny mini-ITX systems for gaming realistic. It’s this graphical prowess compared to any other onboard solution that creates an interesting value proposition for any gamer looking at a new low-cost build. The newest Kaveri APU’s are getting a lot of attention and they beg the question, is a discrete graphics card really needed for gaming at reasonable settings?
Subject: Memory | April 9, 2014 - 06:54 PM | Jeremy Hellstrom
Tagged: kingston, kingston hyper x, Genesis LoVo, 16GB, ddr3-1600
If you were impressed by the low wattage required to run the AMD AM1 Athlon 5350 and are thinking of building a low power system along the lines of the one Josh used in his review Kingston has a product to help you lower that total system voltage a little more. HyperX Genesis LoVo uses only a mere 1.35V to power the 16GB DDR3-1600 CL9 kit and their low profile helps if you are building a small sized system. Performance at stock speeds is quite decent, with the possibility of overclocking to add more speed if you desire but these DIMMs are more about power savings than raw power. Check out the full review at Funky Kit.
"Even though higher clocked RAM is great for overclocking and gaming for most computer users, memory at lower clocks is good enough for the general tasks they perform daily. For those users, memory speed is usually less important than capacity so today we wish to present something more regular in the memory's world what is Kingston HyperX Genesis LoVo 16GB DDR3-1600 CL9. As probably some readers already noticed, we can't really call it regular memory as Kingston specified it to run at low voltage of 1.35V ... and it's green like most eco-friendly products."
Here are some more Memory articles from around the web:
- G.Skill TridentX 32 GB CAS7 F3-1600C7Q-32GTX @ techPowerUp
- Corsair Vengeance Low Profile 16GB 1600MHz C10 Dual Channel DDR3 Memory Kit Review @ Madshrimps
- AVEXIR Blitz 1.1 Memory Series @ Funky Kit
- Avexir Blitz Series 1.1 4GB 1600MHz Memory @ eTeknix
- Funky Kit Review: G.Skill TridentX 16GB DDR3-1866 CL8 @ Funky Kit
- Avexir Core Series MPOWER 2133 MHz CL9 @ Hardwareoverclock
- Kingston HyperX Predator 8GB DDR3-2400 Kit Review @ OCIA
- Team Group Vulcan Gold 2400MHz 8GB Memory Kit @ Kitguru
- Kingston HyperX Predator 8GB DDR3-2800 CL12 @ Funky Kit
Subject: General Tech, Memory | April 8, 2014 - 02:03 AM | Scott Michaud
Tagged: Hynix, ddr4
... I'll take two.
SK Hynix, one of the leading producers of RAM modules, announced a single stick of DDR4 with 128GB capacity. While this is intended for the server room, I hope that we will see workstation components attempt to be compatible in the near future. It is difficult to find a board that can support more than 64GB at all, let alone twice that, per stick.
As for the typical desktop users? Let's face it, this is overkill, eight times over, generously, per stick. Web browsers are beginning to ring up the memory usage as more and more tabs are loaded simultaneously but, otherwise, there is little use for it for them.
But for those of us who are not them, this could be awesome. It is still unclear how much memory a Haswell-EX motherboard, running on an Intel X99 chipset, will support. I can assume that this stick will not be compatible... but we can always hope, right?
So Many MHz, So Little Time...
If you've looked at memory for your system lately you've likely noticed a couple of things. First, memory prices have held steady for the past few months, but are still nearly double what they were a little over a year ago. Second, now that DDR3 has been a mature standard for years, there is a vast selection of RAM from many vendors, all with nearly identical specs. The standard has settled at 1600MHz for DDR3, and most desktop memory is programmed for this speed. Granted, many modules run at overclocked speeds, and there are some out there with pretty outlandish numbers, too - and it’s one of those kits that we take a look at today.
Hardly subtle, the Kingston HyperX 'Predator' dual channel kit for review today is clocked at a ridiculous 1066MHz OVER the 1600MHz standard. That's right, this is 2666MHz memory! It seems like such a big jump would have to provide increased system performance across the board, and that's exactly what we're going to find out.
We all want to get the most out of any component, and finding the best option at a given price is part of planning any new build or upgrade. While every core part is sold at a particular speed, and most can be overclocked, there are still some qualifying factors that make selecting the fastest part for your budget a little more complicated. Speed isn't based on MHz alone – as with processors, where it often comes down to number of cores, how many instructions per clock cycle a given CPU can churn out, etc.