Architecture Overview
GCN 1.0 (Graphics Core Next, first generation) launched in 2011 with the Radeon HD 7000 series, replacing AMD's VLIW-based TeraScale architecture with a scalar shader design. The shift to GCN marked AMD's move to a compute-oriented GPU architecture that would define the company's discrete lineup for nearly a decade. Tahiti (Radeon HD 7970 / HD 7950) was the flagship, introducing AMD's first 28nm desktop GPU and setting single-precision compute throughput records at launch.
Quick Facts
- Architecture name
- GCN 1.0
- Launch era / years active
- 2011 to 2013
- Predecessor
- TeraScale 3 (VLIW4)
- Successor
- GCN 2.0
- Process nodes
- 28nm (TSMC)
- Important chips
- Tahiti (HD 7970 / 7950), Pitcairn (HD 7870 / 7850), Cape Verde (HD 7770 / 7750), Oland (HD 8000M)
- Memory technologies
- GDDR5
- CUDA / RT / Tensor generation
- GCN 1.0 Stream Processors; DirectX 11.1; OpenCL 1.2; first generation AMD GCN compute pipeline
- Consumer series
- Radeon HD 7900 series, HD 7800 series, HD 7700 series
- Workstation / professional series
- FirePro W9000, W8000, W7000 series
- Data center series
- FirePro S9000, S7000 compute cards
- Source review status
- Source review complete for primary consumer product line.
What this architecture changed
Shift from VLIW to scalar shader design: each GCN Compute Unit contains 64 stream processors executing scalar instructions rather than the wide VLIW5 bundles of TeraScale.
Asynchronous Compute Engines (ACEs): hardware support for concurrent graphics and compute workloads.
DirectX 11.1 and OpenCL 1.2 compliance.
PCI Express 3.0 support on high-end SKUs.
GDDR5 memory interface across the lineup.
Why it mattered
GCN 1.0 established the shader architecture that AMD used across nearly a decade of consumer and professional GPUs. The scalar design proved highly amenable to general-purpose GPU compute, making GCN-generation hardware a popular choice for compute workloads and contributing to AMD's relevance in the early deep learning GPU era. Driver support for GCN 1.0 hardware remained in the standard Adrenalin stack longer than most architectures of the same age.
Related GPUs
Popular GPU entries
| GPU | Architecture | Launch Date | Shader Processors | Memory | Bus Width | TDP/TBP | Segment |
|---|---|---|---|---|---|---|---|
| Radeon HD 8730M | GCN 1.0 | 2013-04-01 | 384 | 2 GB DDR3 | 128-bit | — | Mobile |
| Radeon HD 8770M | GCN 1.0 | 2013-04-01 | 384 | 2 GB GDDR5 | 128-bit | — | Mobile |
| Radeon HD 8570M | GCN 1.0 | 2013-03-01 | 320 | 1 GB DDR3 | 64-bit | — | Mobile |
| Radeon HD 8670M | GCN 1.0 | 2013-03-01 | 320 | 1 GB DDR3 | 64-bit | — | Mobile |
| Radeon HD 8690M | GCN 1.0 | 2013-03-01 | 320 | 2 GB GDDR5 | 64-bit | — | Mobile |
| Radeon R5 240 OEM | GCN 1.0 | 2013-11-01 | 384 | 2 GB DDR3 | 64-bit | 50 W | Gaming |
| Radeon HD 7730 | GCN 1.0 | 2013-05-01 | 384 | 1 GB GDDR5 | 128-bit | 47 W | Gaming |
| Radeon HD 7990 | GCN 1.0 | 2013-04-24 | 2,048 | 3 GB GDDR5 | 384-bit | 375 W | Gaming |
| Radeon HD 7950 Mac Edition | GCN 1.0 | 2013-03-07 | 1,792 | 3 GB GDDR5 | 384-bit | 200 W | Gaming |
| Radeon HD 7870 XT | GCN 1.0 | 2012-11-19 | 1,536 | 2 GB GDDR5 | 256-bit | 185 W | Gaming |