Introducing AMD Radeon HD 7850 & HD 7870 2 GB
"Next-generation", "Graphics CoreNext", "Radeon HD 7000 series", "Southern Islands"...this is it. AMD's new GPU architecture has moved into the phase where its makers launch serious money-making products based on it, with the Radeon HD 7800 series.
Targeting a wide price-range between $250-$350, the HD 7800 series falls into the market-segment both AMD and NVIDIA have known to refer to as the "sweetspot" segment. When people decide to turn their $400 Dell desktops into gaming PCs, instead of buying $300 game consoles for their TV, it's graphics cards from this segment that they end up buying. Smooth gameplay at full-HD resolution is a requisite.
AMD has to get several things right about the products it's launching today, because the competitiveness of the entire HD 7000 series hangs on its success. First, it needs to create a sizable performance jump, over the previous-generation Radeon HD 6800 series; second, its new chip has to prove Graphics CoreNext as being a viable investment for AMD by meeting some basic cost/performance, performance/die-area, and performance/Watt figures. VLIW4 had a very short stint before Graphics CoreNext.
NVIDIA hasn't even started with its next-generation GPU lineup, leaving its previous-generation to defend itself against a reinvigorated AMD lineup. AMD appears to have exploited this late-coming by NVIDIA. The launch prices of Radeon HD 7900 series resembled those of NVIDIA's high-end GTX series, the Radeon HD 7700 series products ask a couple of dozen Dollars too many. AMD kept the theme going with the Radeon HD 7800 series. You may recollect AMD's Radeon HD 6870 shipping for $240 on launch, and the HD 6850 for $180, both very attractive prices. The slide above is every indication of AMD trying to justify launch prices of $349 for the HD 7870 and $249 for the HD 7850, just because they are touted to outperform whatever NVIDIA currently has in those price-ranges (we're going to find that out in this review).
Architecture
The Radeon HD 7800 series consists of two models,
the Radeon HD 7870, and the Radeon HD 7850, both stretched far apart in
the market segment. The two are based on AMD's brand new GPU, codenamed
"Pitcairn". Built on the 28 nm fabrication process, this new chip holds
2.8 billion transistors. "Pitcairn" is a 100% upscale of the "Cape
Verde" silicon, on which the Radeon HD 7700 series is based. It has 1280
Graphics CoreNext stream processors, arranged in 20 Graphics CoreNext
Compute Units (GCN CUs). The component hierachy of "Pitcairn" resembles
that of "Tahiti", more than it does "Cape Verde". The 20 GCN CUs are
arranged in two clusters, with two sets of geometry processing engines,
and rasterizers, handing the initial stages of graphics processing.
Apart from 1280 stream processors, Pitcairn has 80 Texture Memory Units
(TMUs), 32 ROPs (Raster Operations), and a 256-bit wide GDDR5 memory
interface, holding 2 GB of memory. Here's something interesting. AMD
deemed 2 GB as the new standard memory amount for performance-segment
graphics cards. Both the HD 7870 and HD 7850 have 2 GB of memory,
clocked at 1200 MHz (4.80 GHz GDDR5 effective), churning out 153.6 GB/s
memory bandwidth. As for the core clock, the HD 7870 has its core
clocked at 1000 MHz, making it AMD's second "GHz Edition" SKU after the
HD 7770; while the HD 7850 has its core clocked at 860 MHz. The Radeon
HD 7850 is carved out by disabling four GCN CUs, leaving 1024 stream
processors, and 64 TMUs. The rest of the SKU is identical to the HD
7870.
In this review, we are evaluating both the Radeon HD 7870 and the Radeon HD 7850. Both cards are AMD reference design samples provided by the company.
In this review, we are evaluating both the Radeon HD 7870 and the Radeon HD 7850. Both cards are AMD reference design samples provided by the company.
The Cards
AMD continues the shiny plastic look that we have seen on other models of the HD 7000 Series. The high gloss surface and the 1 GHz sticker certainly attract attention.
Please note that the HD 7850 (on bottom) uses the same thermal solution and PCB as the HD 7870. Actual retail boards will use a completely different design with lower-cost coolers and PCB. According to AMD we received the HD 7850 like for "logistical" reasons and the board is equal to what AIBs will receive for their product engineering.
Throughout this review we will show both cards when there are noteworthy differences and point them out in the text, otherwise assume that what you see is the same for both reviewed cards.
The card requires two slots in your system.
Display connectivity options include one DVI port, one full size HDMI port and two mini-DisplayPorts. You may use all the outputs at the same time, thanks to AMD's superior display output architecture.
An HDMI sound device is included in the GPU, too. It is HDMI 1.4a compatible which includes HD audio and support for Blu-ray 3D movies. The DisplayPort outputs are version 1.2 which enables the use of hubs and Multi-Stream transport.
You may combine up to two HD 7850/HD7870 cards from any vendor in a multi-GPU CrossFire configuration for higher framerates or better image quality settings.
Pictured above are photos of the front and back, of the HD 7870, showing the disassembled board. High-res versions are also available (front, back). If you choose to use these images for voltmods etc, please include a link back to this site or let us post your article.
Above the same for HD 7850. High-res: front, back.
A Closer Look
AMD's heatsink uses a central copper copper core and heatpipes to keep their card cool. You can also see the white pads that transport heat away from the memory chips.
The HD 7870 requires two 6-pin PCI-Express power cables for operation, whereas there is only one 6-pin on the HD 7850. This power configuration is good for up to 225 W of power draw for the former and 150 W for the latter.
For voltage control both cards use the CHil CHL8225 controller, which is essentially the same as the CHL 8228 that's used on many high-end cards. It does offer extensive software voltage control and monitoring features and is well-supported by most overclocking software.
Retail HD 7850 boards will likely feature a lower cost voltage controller, like NCP5395 which has no software voltage control.
The GDDR5 memory chips are made by Hynix, and carry the model number H5GQ2H24MFR-T2C. They are specified to run at 1250 MHz (5000 MHz GDDR5 effective).
AMD's new Pitcairn graphics processor completes the AMD 28 nm GPU stack. It is produced on a 28 nm process at TSMC, with a transistor count of 2.8 billion. (HD 7850 GPU in the 2nd picture).
Test Setup & More >>>>
source:www.techpowerup.com