Performance,
without compromise.

Our Principles

01 Precision
02 Traceability
03 Independence

Performance metrics

Validated performance.

0 μs
Hardware throttle events

Zero throttle events across the entire test period — uninterrupted compute throughout.

2.36×
Clock advantage vs. baseline

Sustained GPU clock runs 2.36× faster than an unmanaged, throttled baseline.

200h+
Continuous validated runtime

Validated across extended production-scale workloads — not a short burst benchmark.


The problem

Silicon generates heat.
Heat constrains performance.
This is physics.

Every processor — GPU, CPU, or specialised accelerator — operates within a defined thermal envelope. When sustained workloads push a processor toward its thermal design limit, hardware protection mechanisms automatically reduce operating frequency.

The processor is protected. The workload is not. In sustained AI training, inference, and scientific compute, this translates directly to extended run times, inconsistent throughput, and unpredictable service quality.

A parallel constraint affects memory. When a long-running process exhausts available system memory, the operating system terminates it — without warning, without partial output, without recourse.

Both failure modes share one characteristic: they are disruptive. CARDIAC-PURR and PURR SHIELD are designed to keep compute jobs running without interruption.

Live system monitor 00:00:00
GPU clock1,645 MHz
Power draw72 W
Reliability97.5%
Throughput variance0.439%
Throttle events: 0 μs — CARDIAC-PURR active

Inventions

Technology overview.

Two thermal and memory management technologies, engineered for sustained GPU performance.

CARDIAC-PURR

Advanced software-driven thermal management

CARDIAC-PURR GPU performance management system

CARDIAC-PURR is the first solution deployable directly by cloud tenants that eliminates thermal throttling and sustains peak GPU performance — with no changes to the underlying infrastructure.

The algorithm draws on biological systems — specifically the cardiac nervous system and feline frequency patterns. Just as the heart preserves rhythmic stability through feedback, CARDIAC-PURR maintains thermal equilibrium through feedback control deployed entirely in software.

0 μs throttle events 2.36× clock advantage 200h+ validated No admin access needed
PURR SHIELD Incoming

Stable memory. No termination events.

PURR SHIELD memory protection system

PURR SHIELD addresses the second critical failure mode in sustained GPU compute: memory exhaustion. When a process exceeds available system memory, the operating system terminates it without warning — discarding hours or days of work.

Full technical documentation is available under mutual NDA.

OOM prevention No infrastructure changes Software-layer only Complements CARDIAC-PURR

Benchmark summary

Benchmarks.

Independently corroborated telemetry across 200+ hours of validated runtime.

GPU telemetry — Ada Lovelace, cloud, multi-tenant
With CARDIAC-PURR
Duration200+ hours
Throttle events0 μs
Clock advantage2.36×
Sustained clock1,635–1,650 MHz
Temperature~82°C
Power~72W
Throughput var.0.43%
Compute epochs1,924,719,180
Without CARDIAC-PURR
DurationDegraded
Throttle eventsContinuous
Clock advantage1.0×
Sustained clockDegraded
TemperatureExceeds TDP
PowerUncontrolled
Throughput var.High
Compute epochsReduced
Clock frequency trace — real-time comparison
With CARDIAC-PURR Without (throttled)
Telemetry provenance. Every data point is MD5-verified for integrity and UUID-traceable to its exact moment of capture. Independently corroborated by AWS CloudTrail — an unmodifiable third-party audit log. Combined validated runtime exceeds 200+ hours across two GPU architectures.
CARDIAC-PURR thermal performance — before vs. after
Thermal performance — before vs. after
CARDIAC-PURR thermal control visualisation
Thermal control — performance visualisation

Fresh validation

A/B tested. Telemetry-proven.

Controlled 12+12-hour head-to-head on live cloud GPU infrastructure. Same instance, same workload. Dual telemetry capture — NVML baseline plus DCGM treatment. Every sample MD5-verified and UUID-traceable.

A/B validation — Frankfurt EC2 G6 · NVIDIA L4 Ada
Baseline — 12 hours unmanaged
TelemetryNVML via nvidia-smi
SM clock937 MHz avg (throttled)
ThrottleSwPowerCap — continuous
Temperature81.3°C avg
Power72.0W avg
StatusPermanently capped
Treatment — 12 hours with CARDIAC-PURR
TelemetryDCGM field telemetry
SM clock1,153 MHz avg
ThrottleSwPowerCap — same, but escaped
Temperature80.9°C avg (cooler)
Power74.5W avg (+3.5%)
StatusClocks recovered
Key result — clock recovery & efficiency
+23.1%
SM clock recovery
937 → 1,153 MHz
−0.4°C
Temperature delta
Cooler at higher clocks
+18.9%
Efficiency gain
MHz per watt improved
+4.6%
Effective throughput
L4 Ada validated
Test provenance. Conducted on AWS EC2 g6 instance (NVIDIA L4 Ada, UUID GPU-d54fe77d-85b5-cece-5f45-58fe0444c597) in eu-central-1c. Baseline: 12 hours unmanaged GPU workload, PID 10355. Treatment: 12 hours identical workload with CARDIAC-PURR active. Combined validated runtime exceeds 200+ hours across multiple test campaigns.

Licensing model

Flexible terms. Clear process.

CARDIAC-PURR is available under a negotiated non-exclusive technology licence. Commercial terms are structured around deployment scale and are finalised following mutual NDA and technical diligence.

Initial response within two business days.

Full technical documentation and mechanism details are available under mutual NDA. Indicate your interest below.

Start licensing inquiry →
Commercial licence

For cloud providers, GPU vendors, and enterprise deployments. Scale-based terms. Chip-level embedding available.

Research licence

For universities, national labs, and qualified research institutions. Terms negotiated case-by-case.

OEM & chip integration

Control logic licensed for embedding directly into processor drivers, runtime stacks, and silicon.

Technical evaluation

Structured diligence process under mutual NDA. Full mechanism documentation provided after NDA execution.


Applications

Controlled thermals. Stable memory.
Powering multiple industries.

Every environment where processors must sustain high performance over extended periods, and where a thermal or memory failure carries financial, operational, or safety consequences.

02
Cloud data centres
CARDIAC-PURRPURR SHIELD

Multi-tenant GPU clusters where thermal throttling and memory exhaustion silently degrade SLAs.

03
Autonomous vehicles & ADAS
PURR SHIELD

Real-time perception pipelines where a memory termination event is a safety-critical failure.

04
Smartphones & mobile
PURR SHIELD

On-device AI inference with strict thermal envelopes and no room for unexpected process termination.

05
Gaming & gaming hardware
CARDIAC-PURR

Sustained GPU loads during extended play sessions where thermal throttling drops frame rates.

07
Scientific HPC
PURR SHIELDCARDIAC-PURR

Climate modelling, molecular dynamics, and astrophysics simulations that run for months on GPU clusters.

08
Drug discovery & molecular modelling
PURR SHIELDCARDIAC-PURR

Protein folding and molecular docking pipelines where interrupted runs invalidate experimental design.

09
Medical imaging & diagnostics
CARDIAC-PURR

MRI and CT reconstruction workloads where consistent throughput ensures diagnostic reliability.

10
Aerospace & defence
CARDIAC-PURRPURR SHIELD

Mission-critical compute where thermal or memory failure is not an acceptable outcome.

12
Pharmaceutical & biotech
PURR SHIELDCARDIAC-PURR

Genomic sequencing and computational biology pipelines with multi-day runtime requirements.

13
Energy & seismic processing
PURR SHIELD

Seismic data processing and reservoir simulation where memory exhaustion terminates long-running inversions.

14
Telecommunications & 5G/6G
PURR SHIELD

Signal processing and network optimisation workloads running on edge GPU hardware.

15
Cryptocurrency & blockchain
PURR SHIELDCARDIAC-PURR

Proof-of-work and validator node operations where sustained GPU clocks directly affect yield.

16
Education technology
CARDIAC-PURRPURR SHIELD

AI tutoring and adaptive learning platforms serving millions of concurrent users on shared infrastructure.

18
Enterprise AI governance & compliance
LLM Router

EU AI Act-aligned execution with full audit trails, policy enforcement, and human oversight.

19
Regulated AI environments
LLM Router

Healthcare, finance, and public sector deployments where every AI decision must be traceable and auditable.


"The telemetry methodology — MD5-verified, UUID-traceable, corroborated by an unmodifiable third-party audit log — reflects a standard of evidentiary rigour that goes well beyond typical software benchmarks. The sustained-clock result over 200+ hours is technically significant."

— Independent technical assessment
AWS CloudTrail corroborated 2× USPTO patents pending Constructor Start 2026 — semi-finalist Copyright registered OVH Cloud partner

The team

We are CARDIAC-PURR.

Emil Igidov — Founder and Inventor of CARDIAC-PURR
Emil Igidov
Founder · Inventor
Abdullah Ok — Cofounder of CARDIAC-PURR
Abdullah Ok
Cofounder · Backend Deployment
Emil Igidov
Founder · Inventor

Business- and technology-oriented lawyer practising across Sweden, Denmark, and Poland — LL.B. (Khazar University), LL.M. in International Law (Erasmus University Rotterdam). Inventor of CARDIAC-PURR and PURR SHIELD. Two USPTO provisional patents pending. Constructor Start 2026 semi-finalist. OVH Cloud partner. His legal and technical discipline drives the evidentiary rigour behind every CARDIAC-PURR benchmark.

Abdullah Ok
Cofounder · Backend Deployment

ISTQB-certified Test Automation Engineer currently at Axis Communications, with prior roles at System Verification, HARMAN International, and EY. Specialises in test automation and backend reliability across Java, Python, Spring Framework, Linux, and SQL — using Selenium, TestNG, Cucumber, and Robot Framework to validate both web applications and embedded systems. ISTQB Advanced Level certified in Test Automation Engineering and Test Analysis, with additional certification in Generative AI testing. Educated at Marmara University and Charles University.

Constructor Start 2026 — semi-finalist

Selected from over 7,000 applicants across 70+ countries to the Constructor Start 2026 Deep Tech accelerator at Constructor University of Bremen. Demo Day: July 2026.

Create Apps Championship 2025–2026

Recognised by the Dubai Chamber of Digital Economy for innovation in applied AI and software infrastructure.

OVH Cloud Startup Programme

€10,000 cloud infrastructure research grant supporting ongoing GPU characterisation and validation runs.


IP & legal status

Priority established. Protection in place.

USPTO #1
Patent pending — GPU thermal management

Filed March 14, 2026. App. 64/005,834. Priority date established and corroborated by the original telemetry record.

USPTO
App. 64/005,834
USPTO #2
Patent pending — AI execution platform

Filed May 24, 2026. App. 64/073,758. Covers the Intelligence Platform — LLM Router's routing and governance layer.

USPTO
App. 64/073,758
Audit trail
AWS CloudTrail corroboration

Every telemetry point is MD5-verified and UUID-traceable, independently corroborated by an unmodifiable third-party audit log.

AWS
CloudTrail
Infrastructure
OVH Cloud Startup Programme

€10,000 cloud infrastructure research grant supporting ongoing GPU characterisation and validation runs.

OVH
Cloud Partner
Entity
2info LLC

Kraków, Poland. 2info Sp. z o.o. — sole holder of all CARDIAC-PURR and PURR SHIELD intellectual property.

2info
Sp. z o.o.
Results are communicated without mechanism exposure. Technical implementation remains confidential under pending IP. Full diligence available under mutual NDA. Disclosure posture: outcomes only. Licensing available on request — commercial, research, and chip-level embedding.

Brand clarity

Three inventions. One family, two patents.

CARDIAC-PURR and PURR SHIELD are sibling inventions filed under the same USPTO priority application — App. 64/005,834, filed March 14, 2026. CARDIAC-PURR addresses GPU thermal throttling; PURR SHIELD addresses GPU memory exhaustion and unexpected OOM process termination. Both are disclosed at an outcomes-only level pending full patent grant, and both appear throughout the application examples above.

Neither is the same product as the Intelligence Platform — LLM Router, a separate invention under its own USPTO application — App. 64/073,758, filed May 24, 2026. The LLM Router addresses multi-provider AI request routing and governance: a software layer operating above your AI stack, unrelated to GPU hardware, temperature, or memory.


Research & roadmap

The principle is proven.
Innovation continues.

CARDIAC-PURR and PURR SHIELD established that a proactive control layer — deployed through software, without hardware access, without infrastructure changes — can eliminate the two most costly failure modes in sustained GPU compute.

The underlying principle is not specific to thermal physics or memory management. It applies to any system governed by hard constraints where violation carries significant cost. Two new inventions are in active development.

Preview

Legal AI Kernel Systems

Legal AI Kernel Systems — AI compliance and regulatory framework

A framework for AI systems under strict regulatory constraints — fully auditable, traceable, and structured for direct use by enterprises, law firms, and regulators.

No further details available at this stage. Details will be published when IP protection is in place.

Patent pending · May 2026

Intelligence Platform — LLM Router

Intelligence Platform — LLM Router — Enterprise AI execution and optimisation system

An enterprise AI execution and optimisation platform that intelligently orchestrates multi-model AI infrastructure in real time — governing cost, performance, reliability, and risk simultaneously across providers.

Patent pending — USPTO App. 64/073,758 · filed May 24, 2026. Full technical documentation available under mutual NDA.

Explore LLM Router →

News

Latest from CARDIAC-PURR.

May 2026
Constructor Start 2026 — semi-finalist

Selected to the cohort from over 7,000 applicants across 70+ countries. CARDIAC-PURR advances to the Constructor Start 2026 accelerator at Constructor University, focused on Deep Tech, AI, and EdTech. Demo Day: July 2026.

7,000+ applicants · 70+ countries
May 2026
OVH Cloud Startup Programme — €10,000 research grant

2info LLC accepted into the OVH Cloud startup programme. €10,000 in cloud infrastructure credits granted for research and experimental workloads.

OVH Cloud partner
May 2026
Second USPTO provisional filed — AI execution platform

Second provisional patent application filed with the USPTO covering the Intelligence Platform — LLM Router. Priority date established May 24, 2026. App. 64/073,758.

March 2026
USPTO patent filing — priority date established

Both source files registered for copyright protection. Statutory damages preserved. IP rights established as of March 14, 2026.

Q2 2026
Next-generation GPU characterisation in progress

ResNet-50 / BERT benchmark results scheduled for publication Q2 2026. Characterisation run active on OVH Cloud infrastructure.


Contact

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Full technical documentation and mechanism details are available under mutual NDA. Initial response within two business days.

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