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NVIDIA GeForce 8800 GTS Core 112
- Graphics Processor
- G80
- Cores
- 112
- TMUs
- 28
- ROPs
- 20
- Memory Size
- 640 MB
- Memory Type
- GDDR3
- Bus Width
- 320 bit
GPU
Recommended Gaming Resolutions:
- 1366x768
- 1600x900
- 1920x1080
The GeForce 8800 GTS Core 112 was a graphics card by NVIDIA, launched on November 19th, 2007. Built on the 90 nm process, and based on the G80 graphics processor, in its G80-100-K0-A2 variant, the card supports DirectX 11.1. Even though it supports DirectX 11, the feature level is only 10_0, which can be problematic with many DirectX 11 & DirectX 12 titles. The G80 graphics processor is a large chip with a die area of 484 mm² and 681 million transistors. Unlike the fully unlocked GeForce 8800 GTX, which uses the same GPU but has all 128 shaders enabled, NVIDIA has disabled some shading units on the GeForce 8800 GTS Core 112 to reach the product's target shader count. It features 112 shading units, 28 texture mapping units, and 20 ROPs. NVIDIA has paired 640 MB GDDR3 memory with the GeForce 8800 GTS Core 112, which are connected using a 320-bit memory interface. The GPU is operating at a frequency of 500 MHz, memory is running at 800 MHz.
Being a dual-slot card, the NVIDIA GeForce 8800 GTS Core 112 draws power from 1x 6-pin power connector, with power draw rated at 150 W maximum. Display outputs include: 2x DVI, 1x S-Video. GeForce 8800 GTS Core 112 is connected to the rest of the system using a PCI-Express 1.0 x16 interface. The card measures 267 mm in length, and features a dual-slot cooling solution.
Being a dual-slot card, the NVIDIA GeForce 8800 GTS Core 112 draws power from 1x 6-pin power connector, with power draw rated at 150 W maximum. Display outputs include: 2x DVI, 1x S-Video. GeForce 8800 GTS Core 112 is connected to the rest of the system using a PCI-Express 1.0 x16 interface. The card measures 267 mm in length, and features a dual-slot cooling solution.
Graphics Processor
Graphics Card
- Release Date
- Nov 19th, 2007
- Generation
-
GeForce 8
(8800)
- Predecessor
- GeForce 7 PCIe
- Successor
- GeForce 9
- Production
- End-of-life
- Bus Interface
- PCIe 1.0 x16
- Reviews
- 403 in our database
Relative Performance
Based on TPU review data: "Performance Summary" at 1920x1080, 4K for 2080 Ti and faster.
Performance estimated based on architecture, shader count and clocks.
Clock Speeds
- GPU Clock
- 500 MHz
- Shader Clock
- 1200 MHz
- Memory Clock
-
800 MHz
1600 Mbps effective
Memory
- Memory Size
- 640 MB
- Memory Type
- GDDR3
- Memory Bus
- 320 bit
- Bandwidth
- 64.00 GB/s
Render Config
- Shading Units
- 112
- TMUs
- 28
- ROPs
- 20
- SM Count
- 14
- L2 Cache
- 80 KB
Theoretical Performance
- Pixel Rate
- 10.00 GPixel/s
- Texture Rate
- 28.00 GTexel/s
- FP32 (float)
- 268.8 GFLOPS
Board Design
- Slot Width
- Dual-slot
- Length
- 267 mm
10.5 inches
- TDP
- 150 W
- Suggested PSU
- 450 W
- Outputs
- 2x DVI
1x S-Video
- Power Connectors
- 1x 6-pin
- Board Number
- P356
Graphics Features
- DirectX
- 11.1 (10_0)
- OpenGL
- 3.3
- OpenCL
- 1.1 (1.0)
- Vulkan
- N/A
- CUDA
- 1.0
- Shader Model
- 4.0
Card Notes
| only XFX, EVGA and BFG models |
G80 GPU Notes
| Each Streaming Multiprocessor(SM) in the chip architecture contains 8 SPs and 2 SFUs. Each SP can fulfill up to two single precision operations MAD per clock. Each SFU can fulfill up to four operations SF per clock (these units can also handle single-precision floating-point multiplications per clock). The approximate ratio of operations MAD to operations SF is equal 2:1. The theoretical SP + SFU performance in single-precision floating point operations [FLOPSsp + sfu, GFLOPS] of the graphics card with shader count [n] and shader frequency [f, GHz], is estimated by the following formula: FLOPSsp+sfu; f × n × 3. Alternative formula: FLOPSsp+sfu; f × m × ( 8 SPs * 2 (MAD) + 4 * 2 SFUs ). [m] - SM count. SP - Shader Processor (Unified Shader, CUDA Core) SFU - Special Function Unit SM - Streaming Multiprocessor MAD - ADD+MUL |
Apr 26th, 2024 01:44 EDT
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