Upgrading from an Intel Core i7-2600K: Testing Sandy Bridge in 2019
by Ian Cutress on May 10, 2019 10:30 AM EST- Posted in
- CPUs
- Intel
- Sandy Bridge
- Overclocking
- 7700K
- Coffee Lake
- i7-2600K
- 9700K
CPU Performance: Office Tests
The Office test suite is designed to focus around more industry standard tests that focus on office workflows, system meetings, some synthetics, but we also bundle compiler performance in with this section. For users that have to evaluate hardware in general, these are usually the benchmarks that most consider.
All of our benchmark results can also be found in our benchmark engine, Bench.
PCMark 10: Industry Standard System Profiler
Futuremark, now known as UL, has developed benchmarks that have become industry standards for around two decades. The latest complete system test suite is PCMark 10, upgrading over PCMark 8 with updated tests and more OpenCL invested into use cases such as video streaming.
PCMark splits its scores into about 14 different areas, including application startup, web, spreadsheets, photo editing, rendering, video conferencing, and physics. We post all of these numbers in our benchmark database, Bench, however the key metric for the review is the overall score.
Something like PCMark doesn't really show the scale of the differences, except in the main tests that are fully multithreaded where the 9700K pulls out a bigger lead. The 7700K only has a 17% lead over the 2600K, which goes down to 5% when compared to the overclocked version. This is perhaps more of an indication of how often you might feel the difference with a new 7700K over an overclocked 2600K: 5% of the time. It depends on your load balance, of course.
Chromium Compile: Windows VC++ Compile of Chrome 56
A large number of AnandTech readers are software engineers, looking at how the hardware they use performs. While compiling a Linux kernel is ‘standard’ for the reviewers who often compile, our test is a little more varied – we are using the windows instructions to compile Chrome, specifically a Chrome 56 build from March 2017, as that was when we built the test. Google quite handily gives instructions on how to compile with Windows, along with a 400k file download for the repo.
In our test, using Google’s instructions, we use the MSVC compiler and ninja developer tools to manage the compile. As you may expect, the benchmark is variably threaded, with a mix of DRAM requirements that benefit from faster caches. Data procured in our test is the time taken for the compile, which we convert into compiles per day.
Our compile test in this case loves the cores of the 9700K over SMT, but in this case we again see the overclocked 2600K get inbetween the 7700K and the 2600K at stock. Even without an overclock on the 7700K, that's an easy gain to amortize.
3DMark Physics: In-Game Physics Compute
Alongside PCMark is 3DMark, Futuremark’s (UL’s) gaming test suite. Each gaming tests consists of one or two GPU heavy scenes, along with a physics test that is indicative of when the test was written and the platform it is aimed at. The main overriding tests, in order of complexity, are Ice Storm, Cloud Gate, Sky Diver, Fire Strike, and Time Spy.
Some of the subtests offer variants, such as Ice Storm Unlimited, which is aimed at mobile platforms with an off-screen rendering, or Fire Strike Ultra which is aimed at high-end 4K systems with lots of the added features turned on. Time Spy also currently has an AVX-512 mode (which we may be using in the future).
For our tests, we report in Bench the results from every physics test, but for the sake of the review we keep it to the most demanding of each scene: Ice Storm Unlimited, Cloud Gate, Sky Diver, Fire Strike Ultra, and Time Spy.
GeekBench4: Synthetics
A common tool for cross-platform testing between mobile, PC, and Mac, GeekBench 4 is an ultimate exercise in synthetic testing across a range of algorithms looking for peak throughput. Tests include encryption, compression, fast Fourier transform, memory operations, n-body physics, matrix operations, histogram manipulation, and HTML parsing.
I’m including this test due to popular demand, although the results do come across as overly synthetic, and a lot of users often put a lot of weight behind the test due to the fact that it is compiled across different platforms (although with different compilers).
We record the main subtest scores (Crypto, Integer, Floating Point, Memory) in our benchmark database, but for the review we post the overall single and multi-threaded results.
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Targon - Monday, May 13, 2019 - link
I made a similar comment, Civ6 added a new benchmark with Gathering Storm as well that is even more resource intensive. Turn length will show what your CPU can do, without GPU issues getting in the way.Zoomer - Friday, June 14, 2019 - link
Articles says that bmrk is being developed.nonoverclock - Friday, May 10, 2019 - link
Interesting article! I'm still sitting on an i7 4770 and am debating an upgrade, would be also interesting to see a Haswell i7 in the mix.HomerrK - Friday, May 10, 2019 - link
I'm one of those who bought the 2600K back in the day. A few months ago I made the move to the 9900K. Cores and price don't matter so much as feeling it will be a chip that will offer great bang for the buck for years. I think it is the spiritual successor to the 2600K and that it was a mistake to omit it.RSAUser - Saturday, May 11, 2019 - link
Not even close, it's near double the price.The Ryzen 2700 at $300 would be a way better "successor" as it's within a lot of people's budgets, offers good gaming performance and with 8 cores is probably going to last quite a while as we move to higher threading.
The Ryzen 2 chips moving to 7nm will probably have the largest leap in a while, so whichever one comes in around the $300 mark will probably be the "true" successor of the 2600K.
Targon - Monday, May 13, 2019 - link
The issue that some will have with the 2700X is that the clock speeds are not up there at the 5GHz mark, which is what many Intel systems have been able to hit for over four years now. Third generation Ryzen should get to the 5GHz mark or possibly beyond, so there wouldn't be any compromises. Remember, extra cores will only result in better performance in some areas, but single threaded and many older programs benefit more from higher clock speeds(with similar IPC).Don't get me wrong, I have a Ryzen 7 1800X in this machine and wouldn't step down to a quad-core chip again on the desktop, but I do appreciate that some things just want higher clock speeds. I expect a 40 percent boost in overall performance by switching from this 1800X to the 16 core Ryzen if it hits 5GHz, and that doesn't even count the increase in core count. I may end up paying $600 or more for the CPU though, but that will keep me happy for at least another five years.
crimson117 - Friday, May 10, 2019 - link
Finally retired my i5-2500K last spring for a Ryzen 2700X.But boy what a good run that CPU had.
jayfang - Friday, May 10, 2019 - link
Likewise only recently "demoted" my i5-2500K - still has tons of grunt as family PC / HTPCgijames1225 - Friday, May 10, 2019 - link
Same boat. I used a 2400k and 2500k for my two main PCs for years and years. Just replaced the 2500k with a Ryzen 5 1600 (they were $80 at Microcenter for some blessed reason). Tripling the thread count has down wonders for my compile times, but it's just amazing how strong and long lasting the IPC was on the 2ng generation Core i processors.qap - Friday, May 10, 2019 - link
You've convinced me. Staying with my Sandy Bridge for another year. At 1600p difference in CPU is not that high (definitely not worth 1000+ USD for completely new system) and for day to day work it is plenty fast. Up to four threads there's very little to gain and only when more threads are at play there is large enough difference (same goes for Ryzen only there I would gain almost nothing up to four threads).Perhaps Zen 2 will change that, or maybe 10nm CPUs from intel when they finally arrive with new CPU architecture and not rehash of 4 year old Skylake.