News Picture Generic

synTQ: The Intelligence Layer Powering Automated QC and Smart Manufacturing

February 26, 2026

An automated Tablet Testing Use Case 

In modern pharmaceutical and bioprocess manufacturing environments, automation alone is no longer enough. True digital transformation requires every instrument, robot, sensor, and workflow to operate with precision, reliability, and complete data integrity. Achieving this demands an intelligence layer that orchestrates workflows, derives analytical insight, and ensures compliant execution from end to end. That intelligence layer is synTQ (Bruker, SciY). Designed as a comprehensive knowledge management and orchestration platform, synTQ enables data-driven, fully traceable, and compliant QC workflows across laboratories and manufacturing operations. SciYbotic systems (Bruker, Chemspeed) are one of the strongest demonstrations of synTQ’s power in action. While other automated systems rely solely on traditional control layers, SciYbotic stands apart by embedding synTQ as its intelligence core to transform the automated equipment into a compliant, data-driven, insight-ready QC solution. 

Orchestrating Intelligent, Adaptive Workflows 
Within each SciYbotic automation solution, synTQ directs every activity, decision, and analytical interaction. Rather than simply executing a set of fixed commands, synTQ enables smart, adaptive workflows that can respond to realtime analytical results. Its drag-anddrop workflow editor allows scientists and engineers to design, refine and deploy complex sequences quickly — without heavy programming or control system rework. This adaptability is key to increasing speed, accuracy, and repeatability across QC and at-line testing environments.

Traceability, Validation & Compliance — Built in from Day One 
One of synTQ’s greatest strengths is its pharmaproven approach to data integrity. Through synTQ, every action with the instrument is captured through a centralized audit trail, ensuring 21 CFR Part 11-ready electronic records, controlled changes and full lifecycle traceability. For manufacturers facing mounting regulatory scrutiny and growing demand for real-time release strategies, synTQ provides the confidence needed to scale automation with compliance already embedded. 

Seamless Method Transfer Across Systems and Sites 
Because synTQ centrally manages workflows, models, parameters, and data definitions, SciYbotic methods can be transferred between units, labs or even global manufacturing sites — with minimal redevelopment and revalidation effort.

This delivers immediate benefits:

  • Faster rollout of new processes
  • Global harmonization of QC methods
  • Standardized execution for reduced variability
  • Faster tech transfer during scale-up

For organizations pursuing digital operations at scale, this reduces friction and accelerates real business impact.

More Than Automation — A Smarter, Compliant, Insight-Ready Future
synTQ transforms SciYbotic solutions into intelligent quality systems capable of closed-loop decision-making, holistic data capture and continuous improvement. It’s the difference between “automated testing” and digitally enabled, insight-driven manufacturing. While SciYbotic is an exemplary use case, the impact extends far beyond it: any lab, production line, or QC workflow can be transformed when synTQ becomes core to its operations.

Organizations adopting synTQ powered automation are moving from:

  • “Automated testing” → to insight-driven, compliant, adaptive QC
  • Fragmented data → to traceable, structured, and analytics-ready intelligence
  • Local improvement → to enterprise-level digital transformation

Interested in bringing synTQ into your QC workflows? Get in touch, we’d be happy to discuss how we can help: https://www.chemspeed.com/contact/

Other Recent News

Discover more news articles you might be interested in

Read more about High-throughput solid microsampling through stochastic robotic automation
News Picture 1 1 V2
Featured
Jul
14

High-throughput solid microsampling through stochastic robotic automation

Solid sampling at the sub-milligram and milligram scale remains a major bottleneck for high-throughput chemistry or material sciences, as existing approaches rely on manual handling or slow deterministic microsampling that do not readily scale.

Here we present STORMS, an automated STOchastic Robotic MicroSampling system that enables fast, reliable and parallel sampling of solid materials at sub-milligram and milligram masses. 

Read more about Parameter efficient multi-model vision assistant for polymer solvation behaviour inference
News Picture 1 1 V2
Jun
30

Parameter efficient multi-model vision assistant for polymer solvation behaviour inference

Polymer–solvent systems exhibit complex solvation behaviours encompassing a diverse range of phenomena, including swelling, gelation, and dispersion. Accurate interpretation is often hindered by subjectivity, particularly in manual rapid screening assessments. While computer vision models hold significant promise to replace the reliance on human evaluation for inference, their adoption is limited by the lack of domain-specific datasets tailored, in our case, to polymer–solvent systems.

Read more about Continuous Flow Synthesis of Diglycolamides for Rare-Earth Elements Recovery: Algorithm-Accelerated Reaction Optimization Coupled with Automated Extraction Evaluation
News Picture 1 1 V2
Featured
Jun
23

Continuous Flow Synthesis of Diglycolamides for Rare-Earth Elements Recovery: Algorithm-Accelerated Reaction Optimization Coupled with Automated Extraction Evaluation

A first example of diglycolamide flow synthesis was developed, showcasing algorithm-accelerated reaction optimization and its potential to accelerate ligand discovery and enable autonomous, AIcontrolled manufacturing of critical materials. The increasing demand for manufacturing rare-earth elements (REEs) as critical materials has intensified research on sustainable synthesis of advanced extractants such as diglycolamides (DGAs).

© Chemspeed (part of Bruker) 2026