AMD FX-8320E CPU Review: The Other 95W Vishera
by Ian Cutress on January 13, 2015 10:00 AM ESTBack in September we reviewed the FX-8370E, a new AMD CPU based on the older Vishera/Piledriver architecture but at a lower power – 95W rather than 125W. This was achieved by a combination of a mature 32nm process, adjusting clock speeds and (potentially) some specifically binned voltage characteristics. The FX-8320E was the other lower power CPU launched that day, which AMD has now been supplying for reviews.
The Information
Part of the world yearns for a new high performance processor from AMD to tackle the market. While Team Blue’s tick-tock model accounts for some of their aggressive product development, the limited success of the Bulldozer architecture put AMD on the back foot. In principle the basic design was a good idea, but the ecosystem to support it was not ready and it was almost left behind by those that focused on the platform metrics already at hand. I say almost, because AMD repositioned their high end product stack based on price to aim to compete on performance, albeit focused on the more mid-range but higher volume market segments, and AMD has not made a new high-end processor based on a new architecture in over two years.
This Vishera platform is based on the Bulldozer-based Piledriver architecture and the 32nm process, but has still produced a number of new models since first launch, including the 220W FX-9000 series coming to retail earlier in 2014 (read our review of the FX-9590 here) and a set of new processors in September 2014. This included the 125W FX-8370, positioned at the top of the FX-8000 range with clock speed increases, and the 95W ‘E’ processors, the FX-8370E and FX-8320E.
These processors are similar to their non-E counterparts, the FX-8370 and FX-8320, but with a lower base frequency but the same turbo frequency. This means, in theory, they should be as quick and responsive for most day-to-day tasks as their 125W brethren, but a bit behind when it comes to the hardcore processor mechanics. While priced the same as the 125W parts, AMD is hoping that the rated TDP reduction will entice users who might not need the full power all the time.
Due to the adjustment of TDP, these processors are also more aimed at the 970 chipset. This is a chipset that uses fewer GPU lanes (one PCIe 2.0 x16 slot, one PCIe 2.0 x4 slot) and is slightly cheaper than the 990FX range. Typically the newer 990FX boards are designed to take the large 220W behemoths from the FX-9000 list, but by using a 970 the motherboard makers can focus on 125W max and hopefully save the customer some money. As a result of this target, AMD also sampled the (anecdotally) most popular 970 board, the MSI 970 Gaming, which we have prepared for a separate review.
With the FX-8320E, it is worth noting that the base frequency is only 300 MHz less than the full-fat CPU. Saving 30W for 300 MHz is usually a good idea for most users, as it usually indicates a better binned CPU. 30W for 300 MHz for overclocking might be par for the course, which means that the FX-8320E might have overclocking potential. On the overclocking front, the FX-8320E is ready to be overclocked with an unlocked multiplier, and we have some interesting results later in the review.
Because the following question comes up repeatedly when coming across the latest in the FX line, I will copy the answer verbatim from our previous FX-8370E review:
“Why update the FX line with more Vishera based processors? Can’t we get an update?
AMD’s reasoning for these new processors, apart from the slowly increasing yields of the higher bin parts over the past year and tweaking the overall design, is because of the motherboards available on the market. Due to the construction of some of the early motherboards intended for AMD’s non-IGP line, these early motherboards could only support 95W or 125W maximum, let alone the 220W of the FX9590/9370 behemoths. By releasing an 8-thread Vishera processor with a 95W TDP, this allows these users to upgrade without spending an extra $120$200 on a new motherboard.”
With regards the old roadmap from AMD, it still looks bleak when we consider the FX CPUs. There is no named successor to Vishera, not even on the 28nm process used for the latest Kaveri APUs:
With the Excavator branded APUs due out at some point in the future, part of me hopes that AMD will release something on the FX line kin to that, but it might have the same issue as the Piledriver/Vishera units in the sense that power consumption spirals upward moving beyond 3.5 GHz without severe binning. The 28nm process was designed more for transistor density, especially when we consider the size of the integrated graphics AMD likes to use on the APUs, so there is debate from AMD's side that if a new FX release would offer much on the CPU side, except higher costs.
AMD stated for our FX-8370E review that ‘The AMD of today is funding the AMD of tomorrow … to ensure the ongoing success of products like FX’. Products like FX. It doesn’t give me hope. With AMD’s Jim Keller being the driving force behind Zen, the pin-compatible x86/ARM processors scheduled for 2016 and as noted in a round table talk, ‘scaling from tablet to desktop’, this is the barrier on the horizon that will focus AMD. But for now, we have 95W Vishera to play with, and our sample was a beast.
The CPU, The Chipset and The DRAM
Straight up, 32nm is up against the wall. Intel is on 14nm, recently releasing both Broadwell-Y (Core M) and Broadwell-U, with the latter up to 28W. This represents Intel’s second generation FinFET technology, and if we recall 32nm was back with Sandy Bridge. That being said, the longer you spend on a process node, the more optimized it can be made and the yields improved. One could argue that this reduces running costs, allowing AMD to get product into the market. The question still remains if it is the right product.
AMD 900 Series Chipset Comparison | |||
990FX | 990X | 970 | |
Code Name | RD990 | RD980 | RX980 |
Released | Q2 2011 | Q2 2011 | Q2 2011 |
Fab (nm) | 65 | 65 | 65 |
IGP | No | No | No |
CrossFire | x16 + x16 x8 + x8 + x8 + x8 |
x8 + x8 | x16 + x4 |
SLI | x16 + x16 x16 + x8 + x8 x8 + x8 + x8 + x8 |
x8 + x8 | No |
TDP | 19.6W | 14W | 13.6W |
PCIe | Four PCIe 2.0 slots | Two PCIe 2.0 slots | One PCIe 2.0 x16 slot |
HyperTransport (MHz) | 2600 | 2600 | 2400 |
From the chipset perspective, AM3+ motherboards come in with either 990FX, 990X or 970 and a choice of two 900 series south bridges. The most common and talked about by far is the 990FX+SB950 combination offering two PCIe 2.0 x16 slots for both CrossFire and SLI, and if you want to splash the cash there are a couple of PLX8747 enabled motherboards that use inter-GPU PCIe 3.0 communication and afford more than two-way setups. However, no matter which way the segment is sliced, there are relatively few new motherboards on the market. Almost all are at least twelve months old, with a select few more recent. We recently reviewed the ASRock 990FX Extreme9 which sits at the top of ASRock’s product stack, but they also released a 990FX Killer with an M.2 SATA slot. ASUS had the 990FX Sabertooth PCIe 3.0 model, or the ROG Crosshair V Formula-Z both at the top of the ranges. MSI’s 970 Gaming has been the talk of the town in recent months, offering a poignant target from them. GIGABYTE has not released a 990FX or 970 Sniper yet, although if the market wants it be sure to let them know.
On a functionality front, the 900 series chipsets suffer from a lack of native USB 3.0, requiring controllers to implement this which can be slower than a native solution. For example the MSI 970 Gaming uses two VLI controllers to give a total of 4 USB 3.0 ports, although the performance is not the best. This typically also adds cost of the controllers to the product, which is something to avoid on a bargain model. On the plus side AMD does have six native SATA 6 Gbps ports, all suitable for RAID.
This Review
So the part in play for this review is the 95W AMD FX-8320E, a quad module/eight thread part with a 3.2 GHz base clock and a 4 GHz turbo mode. Priced at $147 when launched but now available for $150, the main competition from Intel resides from the Core i3-4350 (54W, 2C/4T) at $145 of the Core i3-4370 (54W, 2C/4T) at $160. The data points we have most relevant to this at the time of writing are the FX-8150, FX-8350, Core i3-4130T, Core i3-4330 and Core i3-4360, providing more than enough entertainment.
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OrphanageExplosion - Wednesday, January 14, 2015 - link
I played Crysis 3 on an i3-4130 and an i5-4690K. On the jungle stages, there's a night and day difference. I suspect you would notice the same going from a 3570K down to an FX-6300. Most titles are GPU-bound, but CPU can cause frame-rate drops too.Cryio - Wednesday, January 14, 2015 - link
For Offfice an AMD APU A6 is more than enough.aphroken - Wednesday, January 14, 2015 - link
for office, a calculator and typewriter sufficesbarleyguy - Thursday, January 15, 2015 - link
Lame comment, seriously.My work laptop is a high end i7 (Dell 4800 mobile workstation), and my home office machine is an AMD FX-6300. The AMD machine feels every bit as fast.
For typical office applications, there will be no noticeable difference between an AMD and Intel CPU. The storage is generally the bottleneck, so a fast SSD is more worthwhile upgrade than a faster processor.
Even for development (which is why I have a mobile workstation), it's a barely noticeable difference. The longest part of a build is the unit tests, and they are mostly network bound.
AnandTechLies - Wednesday, January 21, 2015 - link
some guy trying to tell people to waste money on an i7. if you buy an i7 it takes up most of the money (unless you have a shit ton of money) and the rest of the Desktop Suffers and AMD processors are actually GOOD. This IMFORMATIVE website lies and has been caught faking their review benchmarks to make people buy intel over AMD, read my username and LISTEN also do not trust Tomshardware it makes up bullshit toD. Lister - Friday, January 23, 2015 - link
Do you think the regular aluminium foil is as good as a tin foil for making hats? Or can the invisible martian invaders read our thoughts through it?happycamperjack - Tuesday, January 13, 2015 - link
I agree! Complained about this before. These gaming benchmarks are some of the worst games to use for both CPU and GPU beside maybe Tomb Raider. Consumer enthusiast CPU market is pretty much dominated by gamers. If you are running irrelevant benchmarks, what's the point then?Suggestion for games to benchmarks:
Dragon Age Inquision: Incredibly well threaded and scaled. Hyperthreading actually gives a big boost in this game. A good indicator benchmark for upcoming Frostbite 3 engine games.
Crysis 3 or Ryse: Son of Rome: Very well threaded and scaled games. Good benchmarks for upcoming crytek games.
Maybes:
Far Cry 3: I'd suggest Far Cry 4 when it's fixed. Another very well threaded game that's a well representation of open world game.
Metal Gear Ground Zeroes: Good benchmark for upcoming FOX engine games such as the popular Pro Evolution series.
I would also suggest AC Unity if it's not so broken for multi GPUs. Yea SLI and Crossfire is still broken this moment.
MapRef41N93W - Wednesday, January 14, 2015 - link
Tomb Raider is horrible for CPU comparisons. One of the absolute worse GPU intensive games for testing CPU on the market. A Pentium G3258 can almost match a 4770k in that game.OrphanageExplosion - Wednesday, January 14, 2015 - link
Tomb Raider is useful for GPU testing as it's very heavy on GPU ramped up to the max but you're right in that its CPU usage is minimal.OrphanageExplosion - Wednesday, January 14, 2015 - link
I actually played Tomb Raider on a G3258 and a 4790K. With a 4.5GHz OC in place (and v-sync active), the Pentium was a total match for the i7. However, at stock speeds, the Pentium saw clear lag in CPU-heavy area - physics etc.However, the benchmarking sequence doesn't have any physics-heavy elements.
Reviewers need to start actually playing games and finding the bottleneck areas rather than just running canned benchmarks that prove very little. If that means fewer datapoints so be it. I'd rather have a smaller amount of useful data rather than a larger amount of meaningless data.