Senior by default
Every contributor on your project has shipped production systems for at least seven years. No staffing rotations, no junior shadow teams.
Volume 06 — Engineering Quarterly
TOOKI’S LIMITED is an engineering studio for organisations that have stopped trusting templates. We architect, build and operate the platforms that move money, regulate access, and translate ambition into infrastructure.

01Introduction
We were founded in Cardiff in 2019 by a small team that had spent a decade rebuilding other people’s systems after they failed in production. TOOKI’S LIMITED began as a deliberate response to a market that had grown accustomed to brittle integrations, opaque billing and vendor lock-in dressed up as innovation.
Today we operate as an independent engineering studio across the United Kingdom, the European Union and East Africa. We design distributed systems, build the products that run on them, and stay on as operating partners long after the launch press releases have gone quiet.
“We treat code as a long-term obligation, not a deliverable.”
02Why operators choose us
Every contributor on your project has shipped production systems for at least seven years. No staffing rotations, no junior shadow teams.
Every architecture decision is captured as a record. You inherit a system you can reason about long after we step away.
We are accountable for the platforms we ship in production, not only in staging. Incident response is part of the contract.
We size work in calendar weeks, not story points, and tell you when scope outgrows the budget instead of after.
Engage one engineer or a full delivery team. Scale up or down monthly without contractual penalties.
We hold no cloud partnerships, reseller margins or affiliate revenue. Our advice optimises for your bill, not ours.

03Values
04Expertise
Each engagement draws from these practice areas in combination. We do not staff projects from a single discipline in isolation.
Event-driven architectures, durable queues, idempotent APIs and the schema-evolution discipline that keeps them running for years.
React, TypeScript and design-system work where accessibility, performance and editorial polish are non-negotiable.
Warehousing on BigQuery, Snowflake and ClickHouse, with declarative pipelines and contract-tested transformations.
Retrieval-augmented generation, classical ML services, evaluation harnesses and the unglamorous plumbing in between.
Hardened landing zones on AWS, GCP and Azure with terraform, policy-as-code and predictable cost behaviour.
ISO 27001, SOC 2 Type II and PCI-DSS programmes treated as engineering work rather than paperwork.
05Industries
We bias toward industries where engineering decisions translate directly into measurable outcomes — uptime that affects revenue, latency that affects trust, audits that affect the licence to operate.
Card schemes, ledgers and treasury systems for issuers, processors and neobanks.
Clinical platforms, regulated record systems, and the integrations that hospitals actually use.
SCADA-adjacent telemetry, asset management and forecasting platforms for utilities and operators.
Routing, dispatch and customs systems that survive the volume spike of a Monday morning.
Service design and platform work for departments that need to deliver, not demonstrate.
Editorial workflows, rights systems and high-traffic delivery for newsrooms and broadcasters.

06Technologies
TypeScript, Go, Python, Rust, Kotlin and a small amount of Elixir where it earns its keep.
Node, Bun, Deno on the edge; containerised services on Kubernetes and Nomad in regulated environments.
PostgreSQL, ClickHouse, Snowflake, BigQuery, DuckDB, Kafka, NATS and Temporal for orchestration.
React, Solid, Svelte, design tokens managed in Style Dictionary, animation in GSAP and Motion.
AWS, GCP and Azure landing zones built with Terraform, OpenTofu and Crossplane.
OpenTelemetry, Grafana, Honeycomb, Sentry and Prometheus, tuned to actually alert humans.
07Software development process
We interview operators, read the codebase you already have, and write down what we found.
We propose two to three architectural directions with trade-offs costed in time and cash.
A narrow vertical slice ships in week three. It exercises the riskiest assumptions first.
Two-week increments with working software at the end of each. Demos to the people who use it, not only those who buy it.
Load tests, chaos drills, threat modelling and a written runbook before anything goes near production.
We are on call for the first sixty days. Pager rotation, post-mortems, and weekly stability reviews.
Optional managed operations: 24/7 on-call, capacity planning, security patching and quarterly architecture reviews.
Documentation, training, and a deliberate transition to your internal team or another partner.
08The team
Eighty-four engineers, designers, and operators across three studios. Average tenure: six years. Median experience before joining: eleven. We hire deliberately and slowly, and we make a habit of refusing work that we cannot staff properly.
Headquarters, platform & security practices
Product engineering and design
Data platforms and applied ML
Embedded engineers across nine further countries

09Innovation approach
We treat novelty as a cost. New runtimes, frameworks and protocols enter our stack only after a deliberate evaluation: who maintains them, what they replace, and what happens to the system if they disappear in three years. The result is a portfolio of projects that ages well rather than impressively.
Our research practice ships a quarterly internal paper — currently on consensus replication, eventual consistency in regulated ledgers, and the practical edges of generative retrieval.
10Digital transformation
We rebuild monoliths into composable platforms, retire vendor systems that have outlived their economics, and translate mainframe-era business logic into services your auditors and your engineers can both read.
The work is rarely glamorous. It is, however, the difference between an organisation that adapts and one that announces it intends to.

11Security standards
Zero-trust access patterns, hardware-bound credentials, federated identity with mandatory step-up.
Reproducible builds, signed artefacts, software bill of materials and dependency provenance.
Field-level encryption, key rotation policies enforced by code, deterministic anonymisation for analytics.
Continuous control monitoring, evidence collection automated against ISO 27001 and SOC 2 controls.

12Infrastructure
We design landing zones the way a structural engineer designs a building: with deliberate boundaries, predictable failure modes, and the assumption that the people maintaining it in year seven will not be us.
Every account, project and namespace is created from a versioned blueprint. Every change is an audited pull request. Every region is paired with a recovery target measured in minutes, not aspirations.
13Cloud solutions
We design hybrid topologies across AWS, GCP, Azure, OVH, Hetzner and on-premises hardware, with workload placement that reflects regulation, latency and economics rather than preference.

Account factories, FinOps governance, multi-region failover and predictable runtime cost.

Kubernetes and OpenStack platforms for regulated workloads with hardware-rooted attestation.

Edge compute pods deployed close to operations, orchestrated centrally, audited continuously.
14AI integration
Most of our machine-learning work is unglamorous. We build evaluation harnesses, label pipelines, retrieval indices and the model-routing layer that decides whether to use a fine-tuned classifier or a frontier model based on cost and accuracy.
The result is not a chatbot demo. It is a measured improvement to a workflow that someone in your organisation will perform ten thousand times this quarter, executed reliably enough that nobody notices the model behind it.
15Development methodology
We operate in two-week iterations with working software at the end of each. Every change is reviewed by at least one peer engineer. Every merge to main is followed by an automated deployment to staging within fifteen minutes.
Architectural decisions are captured as numbered records in the repository. Trade-offs are written down before they are made, not after they are regretted. The result is a system that can be onboarded by a new engineer in days rather than quarters.

16Case study
Duration
14 months
Team
9 engineers
Outcome
−63% unit cost
A tier-one issuer migrated its core ledger off a hosted vendor onto an owned event-sourced service running across three regions. We designed the migration plan, built the platform, ran the dual-write reconciliation for nine months, and handed over a written runbook to the client’s in-house team at completion.
17Project workflow
18Quality assurance

19Client experience
“They worked the way a senior engineering team works inside a company that takes itself seriously — written communication, honest estimates, no theatre. We renewed for a fourth year before the third one ended.”
20Statistics
99.987%
Median production uptime across managed platforms, trailing twelve months.
3.2m req/s
Peak sustained throughput on the largest platform we operate.
41
Active enterprise relationships across nineteen countries.
6 yrs
Average client tenure, weighted by contract value.
21Company timeline
Founded in Cardiff by four engineers with a shared distaste for vendor lock-in. First engagement: a payments ledger migration.
Pandemic year. We doubled headcount, opened the Lisbon studio, and shipped two regulated platforms remotely.
ISO 27001 certified. First public-sector engagement. Built our internal platform-as-code base now used in every project.
Opened the Nairobi studio. Began a multi-year programme with a tier-one European card issuer.
SOC 2 Type II report issued. Crossed thirty active enterprise relationships.
Published our internal handbook externally. Launched the applied-ML practice with three founding engineers.
Crossed eighty engineers. Began a multi-region replatforming for a national health service supplier.
Operating fifty-plus production platforms. Quietly profitable, deliberately small, still entirely independent.
22Business advantages
FinOps governance baked into our landing zones tends to surface 20–40% reductions in the first quarter.
Our default is to give you the system, not a managed dependency on us.
Evidence for ISO 27001, SOC 2 and PCI-DSS controls is collected automatically as the platform runs.
Teams that work alongside our engineers tend to keep their senior staff. We optimise for hand-over from day one.
23Frequently asked
We routinely embed a single senior engineer for three-month engagements alongside in-house teams.
Occasionally, for narrow well-defined scopes. Most of our work is time-and-materials with a written ceiling.
Never. Every engineer is on staff, salaried, and named on the engagement.
All work product is assigned to the client on payment, with a clear carve-out for our internal libraries and tooling.
Our studios overlap from 06:00 UTC through 22:00 UTC. Off-hours on-call is contracted explicitly.
Routinely. We also publish a standard mutual NDA template if you prefer to skip the negotiation.
You do. We deploy into accounts under your control and never the other way around.
Yes. Roughly half of our engagements begin with another team’s code. We write a discovery report in the first three weeks.
Three months for engagements over two engineers, monthly thereafter.
We price evaluation and platform work separately from model experimentation. You pay only for the work that has shipped.
Yes — structured workshops on platform engineering, applied ML and incident response, delivered by the engineers who do the work.
Continuously, and slowly. We close a search only when the candidate raises the average.
24Future vision
The interesting work of the coming decade will not be the announcement of new platforms. It will be the deliberate, unglamorous integration of the platforms we already have — with stronger guarantees about cost, latency, identity and the obligation to explain ourselves to a regulator.
Our roadmap is shaped accordingly. We continue to invest in platform engineering, applied ML evaluation, and the boring, high-leverage work of making systems legible to the people who depend on them.
