Today`s top benchmark scores.

Benchmark Hardware Frequency User Score Points
3DMark Vantage - Performance GeForce GTX 1080 Ti 2290/1475 MHz Smoke 139876 marks 177.0 pts 3   4
Catzilla - 720p GeForce GTX 1080 Ti 2290/1475 MHz Smoke 113039 marks 124.7 pts 0   0
3DMark - Time Spy GeForce GTX 1080 Ti 2075/1475 MHz Smoke 32374 marks 96.3 pts 0   0
XTU Core i7 8700K 6000 MHz zeropluszero 3283 marks 83.8 pts 0   4
3DMark - Fire Strike GeForce GTX 1080 Ti 2075/1475 MHz Smoke 54387 marks 70.9 pts 0   0
3DMark - Fire Strike Extreme GeForce GTX 1080 Ti 2075/1475 MHz Smoke 43998 marks 69.1 pts 0   0
Catzilla - 1440p GeForce GTX 1080 Ti 2075/1475 MHz Smoke 59059 marks 54.4 pts 0   0
XTU Core i3 6100 3810 MHz 'o professore 699 marks 49.8 pts 2   0
SuperPi - 32M Core i7 7700K 6985 MHz zeropluszero 4min 20sec 187ms 48.1 pts 7   6
HWBOT x265 Benchmark - 1080p Core i7 8700K 6600 MHz zeropluszero 80.1 fps 46.5 pts 0   3


HWBOT Articles

The GPU Flashback Archive series continues today with a recap of the NVIDIA GeForce 700 series, a series refresh which heralds part two of the Kepler family of GPUs. We can also remember it as a time when NVIDIA launched their first ever GTX Titan card and with it, a new pricing and retail strategy for truly high-end graphics card products. Let’s take a look at the new Kepler architecture GPUs, the cards that were popular with HWBOT members and some of the more memorable scores that have been posted since launch.

The 2011-2013 period of history saw NVIDIA implement a more regular cadence to their high-end product launches and refreshes. One that saw the company launch a new GPU architecture every two years, with new product lines arriving each year. This means deriving two product lines per architecture with an improved version offered the second time out. This is what we saw with Fermi, an architecture whose potential was full realized at the second attempt. With the GeForce 700 series, which arrived proper in May 2013 with the arrival of both the GeForce GTX 780 and GTX 770, we have something different. The new cards arrived using a much bigger version of the Kepler architecture compared to what we saw on the NVIDIA 600 series.

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Hardware news

Pieter-Jan Plaisier Resigns as HWBOT General Manager, Frederick Colardyn to Take Over from January 2018

Today we bring you news that Pieter-Jan Plaisier has resigned from his position as General Manager of HWBOT. From January 1st 2018, HWBOT founder Frederick Colardyn will take over as General Manager, handling the day to day duties of the organization. Pieter will remain as an active adviser for an interim period of three months to help facilitate a smooth managerial transition.

“I have been actively involved with HWBOT since 2006, taking various roles, from volunteer to becoming the first full-time employee and eventually taking charge of daily operations. Being part of this organization has allowed me to do things that I would not have imagined when I started eleven years ago. I've met some wonderful people who have become some of my closest friends. It's been a life-changing experience and I will treasure the memories for the rest of my life. I hope that HWBOT will flourish and grow in the years ahead.” - Pieter-Jan Plaisier (Massman).

Pieter as been at the heart of so much that HWBOT has achieved in recent years. These achievements include the creation of the HWBOT World Tour, the OC-ESPORTS platform and so much more. The world of overclocking will miss his passion and drive to promote and raise the profile of overclocking around the world. On behalf of all HWBOT staff and members, good luck for the future.


[Video] Gamers Nexus NVIDIA Titan V, VRM Analysis and Shunt Mod Guide

It’s fair enough to say that not too many of us will ever actually own an NVIDIA Titan V graphics card, simply because $3,000 USD is a wee bit beyond most people’s budgets. However, that doesn’t mean that we don’t enjoy content produced around the latest and greatest video card ever produced – the voyeur in us is content to watch from a distance. Which is why you may well enjoy this video from Gamers Nexus which gives us a very detailed look at the components used to create the Titan V VRM design, plus a guide on how to perform a Shunt Mod.

The video is hosted by the one and only Buildzoid from Actually Hardcore Overclocking who takes us by the hand on a journey through the entire PCB, scribbling notes to explain that each and every component actually does. He starts with the vCore VRM of course, which in this case is a little odd in that it spans two sides of the GPU. The design does however make sure that the VRM components are as close to the GPU as possible as it means the current has a shorter distance to travel which reduces voltage dropping and improves transient response. The High Bandwidth Memory (HBM) gets its own two phase VRM which just a bit further back.

The VRM itself is described by Buildzoid as an ‘absolute monstrosity’. In fact it is a 16-phase design which uses a voltage controller from Monolithic Power Systems (MPS) that supports 8-phases. The card uses no doublers which it’s basically a massive 8-phase with double the amount of very high-end powerstages and inductors. What you get in the end is a ridiculous amount of potential power delivery.

After the full analysis of the PCB, Buildzoid then moves on to offer a guide regarding Shunt Modding, an easy mod which should in theory give you the chance to pump more power through the GPU. Catch the video from Buildzoid here on the Gamers Nexus YouTube channel.

[Video] Gamers Nexus Tear-Down NVIDIA Titan V

Steve Burke and Gamers Nexus just went and splurged $3,000 USD on the latest and greatest graphics card from NVIDIA, the Volta-based NVIDIA Titan V. But hey, being a true overclocker and PC enthusiast, Steve just could not resist the temptation to do a tear-down video, removing the entire cooling apparatus to show us what NVIDIA had done at the PCB level. Cheers Steve.

So what is the new Titan card all about? Well, the Titan V of course uses ‘Big Volta’, namely the GV100 graphics processor which you can also find powering the latest Tesla V100 HPC card. The GV100 is a multi-chip module that features a GPU die and three HBM2 memory stacks on the same package. It has 12GB of HBM2 memory that is linked via a 3,072-bit wide memory bus. The GPU has a base clock of 1200MHz boosting by default to a frequency of 1455MHz. Default HBM2 memory is configured at a clock of 850 MHz.

Steve removes the cooler with ease, noting how the card uses the same cooling design that we’ve seen on previous Titan and recent Founder Edition cards. The GV100 GPU is well served in terms of power, being teamed up with a 16-phase VRM. Steve also notes how there is a massive amount of thermal paste used, perhaps not so surprising seeing as the GV100 is a supercomputer chip designed for machine learning and Ai applications and as such has a 815 mm² die, which is pretty much as big as you will ever encounter. Steve goes on to clean up the GPU where you can see the HBM parts of chip package.

You can find the tear-down video from Gamers Nexus here on their YouTube channel.

Cheapaz Chips Season 2 Starts Today

Today the second ever season of the Cheapaz Chips contest series gets under way over on OC-ESPORTS. As you may recall the idea of the contest is to encourage overclockers to put all of their ingenuity and passion into overclocking entry-level hardware that we wouldn’t cry over too much if it got bricked. Cheapaz Chips Season 2 will run through what remains of 2017, ending on January 15th. It features three stages suited to benching NVIDIA GT 1030 graphics cards, the subject matter of season 2. As an added incentive, GALAX are also offering a GALAX GTX 1080 Ti HoF OC Lab Edition card for the eventual contest winner.

Cheapaz Chips Season 2: December 15th - January 31st 2018 - The Cheapaz Chips Season 2 contest on OC-ESPORTS features a very simple format based around Pascal-architecture NVIDIA GT 1030 cards. The Cheapaz Chips contest has in fact been designed to give overclockers a wonderful excuse to get down to some serious card modding. Graphics card modding can be a daunting task for anyone attempting to do so for the first time however. It takes a steady and assured hand that knows how to solder with unerring accuracy, as well as detailed knowledge of exactly how the card and power delivery design works.

1st Place Wins a GALAX GTX 1080 HoF OC Lab Edition - The fantastic thing about Season 2 of the Cheapaz Chips series is that GALAX are generously offering a GTX 1080 Ti HoF OC Lab Edition card for the winner. The highest scoring overclocker wins a GALAX GTX 1080Ti HOF OC Lab Edition graphics card. In case of a tie, the deciding benchmark is Superposition 1080P Xtreme, then GPUPI 1B, then 3DMark03. Each submission must include a picture of your graphics card in action. The graphics card does not come with international warranty.

Read the full introduction of the Cheapaz Chips Season 2 contest. You can also visit the contest page here on OC-ESPORTS

Rauf (Sweden) Breaks Catzilla World Record, Plus 3 GFP Scores with 2x GALAX HoF Lab Edition GTX 1080 Ti Cards

Swedish OC legend Rauf has recently been having a very good time benching a pair of NVIDIA GeForce GTX 1080 Ti cards. In fact using GALAX HoF Lab Edition models under LN2, he managed to take down the World Record in the Catzilla 720p benchmark, plus three other Global First Place dual-GPU scores in3DMark Time Spy, 3DMark Fire Strike and Fire Strike Extreme. Let’s take a quick look at those scores and check out his rig.

In the Catzilla 720p benchmark we find a new World record score of 114,843 marks. The score was made with both GPUs pushed at subzero temperatures to 2,300MHz (+55.41%) on the GPU and 1,566MHz (+13.81%) on the graphics memory. The rig was based around a Intel Core i9 7980XE 'Skylake-X' processor clocked at a very tasty 5,500MHz (+111.54%) with a GALAX HoF DDR4 kit configured at 2,000MHz (12-11-11-28). The rig also featured a ASUS ROG Rampage VI Apex motherboard and an 8 Pack Edition Super Flower 2,000W power supply.

The above rig was also used to set a new Global First Place score in 3DMark Time Spy, with the dual-GPU record now standing at 24,389 marks. The new fastest dual-GPU score submission in the 3DMark Fire Strike Extreme benchmark is 32,175 marks while in 3DMark Fire Strike benchmark it stands at 49,402 marks.

You can check out the submissions for yourself in the links above and also take a look at the Rauf profile page to see what else this guy has been up to. His recent work means that he now has the honor of possessing 75 cups and medals and moves up to 7th place in the HWBOT league rankings with a total points haul of 2,351. Congrats!

Skylead (France) Wins (3rd Consecutive) Rookie Rumble #50 and AMD Rumble #44

Just a few days ago we saw the end of the penultimate Rookie Rumble contest of 2017. Rookie Rumble #50 spanned the months of November and December and featured 482 Rookie HWBOT members, all vying for a crown that once again belongs to Skylead from France. He makes his mark once again, taking his third consecutive Rumble win, plus his first AMD rumble win. Nice work sir! It’s not often that we see one overclocker take wins in both contests. Let’s take a look at each of the stages, the hardware being pushed and the scores being produced in a little detail.

Rookie Rumble #50: November 18th - December 9th, 2017 - First, a quick reminder about what the Rookie Rumble series all about. The central idea is to give Rookie, Novice and Apprentice-class HWBOT members a place where they can compete against each other on a level playing field. For this reason Enthusiast, Extreme and Elite Overclockers are not eligible to compete. Round #50 of the contest was set up with three stages featuring the following benchmarks; Intel XTU, the classic SuperPi 1M and the GPUPI for CPU 1B benchmark. Let’s take a peek at each stage in a little more detail, starting with XTU.

Stage 1: Intel XTU - Interestingly we find that this round’s champion is not to be found in the top three of the Stage 1 leaderboard. Instead we find Skylead (France) in fourth place with a score of 477.5 marks per core (1,910 total) while klause (Germany) takes top spot with a score of 484.83 marks per core (2,909) using a Core i7 8700K ‘Coffee Lake’ processor which he pushed to a very impressive 5,260MHz (+42.16%). Not bad going at all. His motherboard of choice was the ASUS ROG Maximus X Hero (WI-FI AC) which was joined by a 32GB G.SKILL Trident Z RGB CAS 15 DDR4 kit.

Read the full roundup of the Rookie Rumble #50 contest here on OC-ESPORTS.

Overclocking World Championship Final 2017: Photo Album

Last weekend saw the very last stop of the HWBOT World Tour 2017, landing in Berlin, Germany for the Overclocking World Championship Final 2017. The Final invited nine of the world’s best extreme overclockers to compete for cash prizes and the right to be World Champion 2017. Today we bring you the entire photo album of the event which if nothing else, reveals the fact that everybody had a really good time. Thanks to OverClocking-TV for the pics. Enjoy!

HWBOT OC World Championship Final: December 9th-10th, 2017

The HWBOT World Tour 2017 visited ten countries around the world this year. At each stop an Overclocking World Championship Qualifier contest was held, an extreme overclocking contest where the region’s most talented overclockers went head to head to compete for a seat in the Final. Here are some shots of the guys as they are prepped by HWBOT contest organizers and generally getting to know each other, plus shots of the trophies that were lined up for the winners.

Last week saw the very last stop of the HWBOT World Tour

You can find the full photo album with some very interesting shots of the happenings at CaseKing HQ in Berlin here on the HWBOT World Tour site. You can also find our full report of the contest here in Part 1, and Part 2 of the OCWC 2017 Final roundup series.

[Video] Intel Core i9 7980XE Die Extraction with de8auer (Part 2)

Last week we covered a video from Roman ‘der8auer’ Hartung where he started his mission to actually get to the die of a $2,000 USD Intel Core i9 7980XE processor. Don’t worry, he wasn’t attacking a new and functional chip. It was actually a broken one that someone passed on to him with the sole purpose of destroying it in order to retrieve the actual die. He returned yesterday with Part II of the video.

So just to recap. First he delidded the CPU using a specialized Skylake-X version of the Delid-Die Mate tool. He then cleaned up the chip, removing the liquid metal with acetone. Going outside to avoid breathing moxious fumes, Roman then heated the chip up to temperatures beyond 450 degrees Celsius. This allowed him to actually remove the die from the silicon package, an job that proved to be rather difficult due to the underfill layer of the chip which will not budge unless you get it really hot. Eventually Roman plans to do an examination of the die itself using a USB microscope which is capable of 220x zooming and image polarization.

Before that however he wants to remove the copper layer that remains on the chip. To this submerges the chip in 40% iron(III) chloride (or ferric chloride if you prefer) using an ultra sonic cleaner with temperature control functionality. This ensures that the iron (III) chloride is in the correct temperature range. After around two hours, you can see how the copper layer is starting to wear away, revealing some the die structure beneath.

What you end up with after all this work, is the actual die of the CPU can be seen, although you have to zoom in and look at it in the right light. The next step is to use glass etching paste, a similar process to that used above, just more a bit more dangerous. Not surprising as it contains hydrofluoric acid. After ten minutes or so, the CPU die is fully recovered, and looking pretty cool (as in the photo above). It’s fascinating to see the various parts of the CPU actually revealed on the die.

You can watch the video for yourself, here on the der8aeur YouTube Channel.

Throwback Thursday: Musings on Mobile Overclocking

It must have been around 2013 when smartphones, particularly ones using Google’s Android OS, really came of age, becoming almost totally ubiquitous. It is also around this time that it became relatively simple to adjust the settings of your handheld device to make it go a little faster, and of course there were benchmarks around where you could test and compare your performance. Yep… I refer to the advent of Mobile Overclocking, the topic of a post written in December of 2013 by our very own Pieter-Jan 'Massman' Plaisier. Here are just some of the thoughts expressed. Thoughts which ultimately led to the development of the Mobile HWBOT Prime benchmark and the integration of Mobile Overclocking with HWBOT.

The idea is simple. As a community, overclockers have been able to force hardware manufacturers to care about the product quality. Through overclocking – how irrelevant the benchmark scores may be – and the competitive nature of the overclockers, we motivated marketing teams primarily, and engineering teams secondarily, to look at how to improve the design of their product. The companies wanted not only to prevent the power users from spreading the word on poor design, but also to win the race to feature in the world record system. The result we know: better bios, better hardware, more tuning, and better design. A win for everyone!

This eco-system does not exist for mobile devices. There are tons of applications for mobile architectures outside the space of smartphones and tablets to be uncovered. We cannot let poor hardware design stop us. Let’s kick-start the eco-system! The proposed trajectory is as follows. First we introduce the competitive spirit through a benchmark application. The open-source Android version of HWBOT Prime seems to be a good start. The hope is that through rankings and leader boards, developers get interested. Who can build the fastest ROM? Who can build the most overclockable kernel? We hope that in the Hackerspace we can find a couple of people who can help work on a specific device project. For us, it will be one of the Hardkernel Odroid devices. Mainly because we have a bunch of them, and they are easy/easier to work with that smartphones or tablets. Especially when it comes to experimenting with different types of cooling.

You can read the full piece from December 10th 2013 here, which also talks about the Taipei Hackerspace.

Overclocking World Championship Final 2017 Roundup (Part 2)

Having covered Part 1 of the Overclocking World Championship Final 2017 contest, we now turn our attention to Part 2 and the Elimination Phase of the contest.

Day 2: 1v1 Elimination Phase - The second phase of the contest is a little more complex than usual as it uses an elimination, nine player format that ultimately means it is possible to lose a few 1v1 matches and still go on win the contest. The rankings from the previous day dictate when each contestant will participate and how many matches they will eventually have to compete in. 8th and 9th ranked players from the Qualification Phase start first, meaning they may in theory have to win more 1v1 matches than the other contenders to make it through to the decisive and final Match 16.

To make things a little more interesting, we’ll cover the contest from the experience and perspective of each individual overclocker, taking a look at the matches they competed in and the resulting outcomes. Remember, to better understand the flow of the contest, you can refer to the completed brackets by scrolling down to the bottom of this page. Let’s start with jordan.hyde99, Australia’s one big hope!.

jordan.hyde99 (Australia) - Jordan arrived at the contest as arguably the undisputed newcomer to Elite level competitive overclocking. For more info about Jordan, read the jordan.hyde99 bio in this profile article we did in the leadup to the contest. His performance in the Qualification Phase placed him at the foot of the table, meaning he faced PXHX in the first match of the contest in Round 1. This ended in a loss as he failed to make a valid score in the XH265 4K benchmark, while the Brazilian managed a score of 14fps. Perhaps the fairly long benchmark run involved with the 4K preset presented a problem for Jordan. Time management might well have been an issue here.

Read Part 2 of the OCWC 2017 Final roundup article in fullhere on OC-ESPORTS.