MALT processors

 

  

- Ethereum smart contract processing
- Creation of trusted blockchain solutions
- Stream encryption, data integrity checking
- Modern cryptocurrency mining
- Operations with extensive graph structures
- Massively parallel operation with B-trees
- Deep analysis of social networks
- Acceleration of SQL and NoSQL database operations
- Cellular automatons for gas dynamic problems
- Adaptive grid computation
- Monte Carlo method in elementary particle physics
- Irregular sparse matrix problems

 

Download the MALT databrief

 

 


 

 

 

Description

A universal processor for complex cryptographic transformations, including blockchain transactions with utmost energy efficiency.

 

MALT databrief

 

Features

- Ethereum smart contract processing

- Delivery of trusted blockchain solutions

- Stream encryption, data integrity checking

- Modern cryptocurrency mining

 

Development status

MALT-Cv1 - silicon samples were manufactured and tested.

MALT-Cv2 - silicon samples were manufactured and tested.

MALT-Cv3 - RTL debugging.

 

 

 


architecture description

 

TECHNICAL SPECIFICATION

 

  MALT-Cv1 MALT-Cv2 MALT-Cv3
Technological process, nm 28 28 16
General-purpose cores 9 20 7
Specialized cores 96 480 64
Chip area, mm2 12 35 6
Heat dissipation, W 1 10 3
Operating frequency, MHz 800 900 1200

 

 


 

 

 

Description

Processors for simultaneous operations with a big data sets stored in random-access or external memory. MALT-D represents complex processing logic.

  

MALT databrief

 

Features

- Operations with extensive graph structures
- Massively parallel operation with B-trees
- Deep analysis of social networks
- Acceleration of SQL and NoSQL database operations

 

Development status

The MALT-Dv1 model using FPGA is developed and debugged.

 

 

 

 

TECHNICAL SPECIFICATION

 

  MALT-Dv1 MALT-Dv3
Technological process, nm 28 7
Number of cores 256 1024
Heat dissipation, W  10  10
Operating frequency, MHz  1000  1500

 

 


 

 

 

Description

Processors for energy efficient solution of mathematical physics problems, requiring irregular memory access.

  

MALT databrief

 

Features

- Cellular automatons for gas dynamic problems
- Adaptive grid computation
- Monte Carlo method in elementary particle physics
- Irregular sparse matrix problems

 

Development status

The project is in the RTL debugging stage.

 

 

 

 

TECHNICAL SPECIFICATION

 

  MALT-Fv1
Technological process, nm 28
Number of cores 128
Chip area, mm2 100
Heat dissipation, W  10
Operating frequency, MHz  800