ARTYSHKOV Industries

Gomel, Belarus · Est. 2024

Systems
at the edge.

Deep-tech engineering across hardware, biology, security and cloud — built from first principles and tested in real environments.

Firmware · Protein Scoring · AWS Migration · EW & Crypto · Virtual Lab

The work.

01

AWS Migration

Live sandbox demo org. Source-to-target migration with real AWS resources, dependency remapping and validation evidence.

Live ↗ availabl.pages.dev
02

Firmware & Hardware

Bare-metal systems, device bring-up, embedded protocols. From silicon to running code without an OS.

Rust · C · JTAG
03

Protein Scoring

Computational scoring of protein folding candidates. ML-assisted sequence-to-structure pipelines with confidence metrics.

Rust · Python · ML
04

EW & Cryptography

Cryptographic key derivation resistant to electronic warfare interference. Patent application filed.

Patent · TR 2025–2026
05

Code Escrow

Formal IP protection through timestamped code deposit. Covers firmware, cryptographic and scoring modules.

IP · Legal
06

Virtual Lab

Rust/Cargo virtual testing environment. Physical-grade test suites — boot sequences, signal simulation — no hardware required.

Rust · Cargo · QEMU

First principles.
Filed patents.

Patent application · Turkey

EW-resistant cryptographic key derivation

Methods for deriving cryptographic keys in environments subject to active electronic warfare interference. Filed with the Turkish Patent and Trademark Office, 2025–2026.

Biotech

Protein folding scoring pipeline

ML-assisted pipeline for scoring protein folding candidates. Sequence-to-structure with per-residue confidence metrics.

IP Protection

Code depository

Timestamped source deposits for firmware, cryptographic, and scoring modules. Legal IP coverage across all active projects.

Physical tests.
No hardware.

Deterministic Rust test suites that simulate hardware at the register level — GPIO states, SPI clocks, memory constraints, boot stages. Every result is reproducible, versioned, and exportable as evidence.

RustCargono_stdQEMUSVD2Rustprobe-rs
virtual_lab — cargo test --workspace 2>&1
$ cargo test --workspace
Compiling artyshkov-lab v0.1.0
Compiling firmware-sim v0.3.2
Compiling crypto-probe v0.2.0
Finished test profile [unoptimized + debuginfo]
running 12 tests across 3 crates
test firmware::boot::stage_1 ........................... ok
test firmware::boot::stage_2 ........................... ok
test firmware::gpio::pin_state_high .................... ok
test firmware::spi::clock_8mhz ......................... ok
test crypto::kdf::argon2_derive ........................ ok
test crypto::ew::jam_resistance_3ghz ................... ok
test scoring::protein::fold_confidence ................. ok
test scoring::protein::sequence_align .................. ok
test aws::migration::inventory_read .................... ok
test aws::migration::clone_manifest .................... ok
test aws::migration::validation_pass ................... ok
test lab::probe::virtual_oscilloscope .................. ok
test result: ok. 12 passed; 0 failed; 0 ignored; 0 measured

Work together.

Open to deep-tech collaborations, research partnerships, consulting, and investment conversations.