Difference between revisions of "PULP"
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* [http://asic.ethz.ch/2013/Pulp.html Pulp v1] The first version of the PULP platform realized in 28nm FDSOI (RVT) technology with 4 parallel cores. | * [http://asic.ethz.ch/2013/Pulp.html Pulp v1] The first version of the PULP platform realized in 28nm FDSOI (RVT) technology with 4 parallel cores. | ||
* [http://asic.ethz.ch/2014/Pulpv2.html Pulp v2] The second version of the PULP platform realized in 28nm FDSOI (LVT) technology with 4 parallel cores. | * [http://asic.ethz.ch/2014/Pulpv2.html Pulp v2] The second version of the PULP platform realized in 28nm FDSOI (LVT) technology with 4 parallel cores. | ||
− | * [http://asic.ethz.ch/2015/Pulpv3.html Pulp v3] The third version of the PULP platform realized in 28nm FDSOI ( | + | * [http://asic.ethz.ch/2015/Pulpv3.html Pulp v3] The third version of the PULP platform realized in 28nm FDSOI (RVT) technology with 4 parallel cores and a hardware accelerator. |
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====65nm==== | ====65nm==== | ||
* [http://asic.ethz.ch/2015/Mia_Wallace.html Mia Wallace] Third generation of PULP platform, HW accelerators, body biasing FLLs, 256 Kbyte memory (65nm) | * [http://asic.ethz.ch/2015/Mia_Wallace.html Mia Wallace] Third generation of PULP platform, HW accelerators, body biasing FLLs, 256 Kbyte memory (65nm) |
Revision as of 18:54, 29 June 2015
PULP - an Open Parallel Ultra-Low-Power Processing-Platform
This is a joint project between the Integrated Systems laboratory (IIS) of ETH Zurich (IIS) and the Energy-efficient Embedded Systems (EEES) group of UNIBO to develop an open, scalable Hardware and Software research platform with the goal to break the pJ/op barrier within a power envelope of a few mW.
Inquiries from interested partners are welcome.
....more to follow.... stay tuned!
Related Available Projects
- Multi-Modal Environmental Sensing With GAP9 (1-2S)
- Event-based navigation on autonomous nano-drones
- A Novel Execution Scheme for Ultra-tiny CNNs Aboard Nano-UAVs
- Improved Collision Avoidance for Nano-drones
- Deep Learning-based Global Local Planner for Autonomous Nano-drones
- Training and Deploying Next-Generation Quantized Neural Networks on Microcontrollers
- Ibex: Tightly-Coupled Accelerators and ISA Extensions
- Implementation of the RISC-V Bit Manipulation (RVB) extensions for our RISC-V core
- Implementation of the RISC-V Bit Manipulation (RVB) extensions for our RI5CY core
- Scalable Heterogeneous L1 Memory Interconnect for Smart Accelerator Coupling in Ultra-Low Power Multicores
- Cerebellum: Design of a Programmable Smart-Peripheral for the Ariane Core
- Physics is looking for PULP
- Monocular Vision-based Object Following on Nano-size Robotic Blimp
- A Waypoint-based Navigation System for Nano-Size UAVs in GPS-denied Environments
- Embedded Audio Source Localization Exploiting Coincidence Detection in Asynchronous Spike Streams
- PVT Dynamic Adaptation in PULPv3
- Covariant Feature Detector on Parallel Ultra Low Power Architecture
- Ultra-High-Efficiency Power Supply Management for Ultra-Low-Power Systems on Chip
- Hardware Support for IDE in Multicore Environment
- Variability Tolerant Ultra Low Power Cluster
Related Chips
28nm
- Pulp v1 The first version of the PULP platform realized in 28nm FDSOI (RVT) technology with 4 parallel cores.
- Pulp v2 The second version of the PULP platform realized in 28nm FDSOI (LVT) technology with 4 parallel cores.
- Pulp v3 The third version of the PULP platform realized in 28nm FDSOI (RVT) technology with 4 parallel cores and a hardware accelerator.
65nm
- Mia Wallace Third generation of PULP platform, HW accelerators, body biasing FLLs, 256 Kbyte memory (65nm)
- Artemis 4 core PULP system including FPU (65nm).
- Hecate 4 core PULP system with 2 shared FPUs (65nm).
- Selene 4 core PULP system with 1 shared FPU using a logarithmic number system (65nm).
- Diana 4 core PULP system with FPUs designed using approximate computing techniques (65nm).
130nm
- Vivosoc 2 core mixed-signal PULP system with a low-power A/D converter (130nm)
180nm
- Or10n An optimized implementation of the OpenRISC processor developed to be used within PULP (180nm).
- Sir10us A cryptographic application that uses the Or10n processor developed for PULP (180nm).