Designing Pareto-optimal GenAI workflows with syftr

You’re not brief on instruments. Or fashions. Or frameworks.

What you’re brief on is a principled means to make use of them — at scale.

Constructing efficient generative AI workflows, particularly agentic ones, means navigating a combinatorial explosion of decisions.

Each new retriever, immediate technique, textual content splitter, embedding mannequin, or synthesizing LLM multiplies the area of potential workflows, leading to a search area with over 10²³ potential configurations. 

Trial-and-error doesn’t scale. And model-level benchmarks don’t mirror how elements behave when stitched into full techniques.

That’s why we constructed syftr — an open supply framework for robotically figuring out Pareto-optimal workflows throughout accuracy, value, and latency constraints.

The complexity behind generative AI workflows

For instance how rapidly complexity compounds, think about even a comparatively easy RAG pipeline just like the one proven in Determine 1.

Every element—retriever, immediate technique, embedding mannequin, textual content splitter, synthesizing LLM—requires cautious choice and tuning. And past these choices, there’s an increasing panorama of end-to-end workflow methods, from single-agent workflows like ReAct and LATS to multi-agent workflows like CaptainAgent and Magentic-One. 

What’s lacking is a scalable, principled method to discover this configuration area.

That’s the place syftr is available in.

Its open supply framework makes use of multi-objective Bayesian Optimization to effectively seek for Pareto-optimal RAG workflows, balancing value, accuracy, and latency throughout configurations that may be unattainable to check manually.

Benchmarking Pareto-optimal workflows with syftr

As soon as syftr is utilized to a workflow configuration area, it surfaces candidate pipelines that obtain sturdy tradeoffs throughout key efficiency metrics.

The instance under reveals syftr’s output on the CRAG (Complete RAG) Sports activities benchmark, highlighting workflows that keep excessive accuracy whereas considerably decreasing value.

Whereas Determine 2 reveals what syftr can ship, it’s equally essential to know how these outcomes are achieved. 

On the core of syftr is a multi-objective search course of designed to effectively navigate huge workflow configuration areas. The framework prioritizes each efficiency and computational effectivity – important necessities for real-world experimentation at scale.

Since evaluating each workflow on this area isn’t possible, we sometimes consider round 500 workflows per run.

To make this course of much more environment friendly, syftr features a novel early stopping mechanism — Pareto Pruner — which halts analysis of workflows which might be unlikely to enhance the Pareto frontier. This considerably reduces computational value and search time whereas preserving end result high quality. 

Why present benchmarks aren’t sufficient

Whereas mannequin benchmarks, like MMLU, LiveBench, Chatbot Area, and the Berkeley Perform-Calling Leaderboard, have superior our understanding of remoted mannequin capabilities, basis fashions hardly ever function alone in real-world manufacturing environments.

As an alternative, they’re sometimes one element — albeit a vital one — inside bigger, refined AI techniques.

Measuring intrinsic mannequin efficiency is essential, but it surely leaves open essential system-level questions: 

• How do you assemble a workflow that meets task-specific objectives for accuracy, latency, and price?
• Which fashions do you have to use—and by which elements of the pipeline?

syftr addresses this hole by enabling automated, multi-objective analysis throughout whole workflows.

It captures nuanced tradeoffs that emerge solely when elements work together inside a broader pipeline, and systematically explores configuration areas which might be in any other case impractical to judge manually.

syftr is the primary open-source framework particularly designed to robotically establish Pareto-optimal generative AI workflows that steadiness a number of competing goals concurrently — not simply accuracy, however latency and price as effectively.

It attracts inspiration from present analysis, together with:

• AutoRAG, which focuses solely on optimizing for accuracy
• Kapoor et al. ‘s work, AI Brokers That Matter, which emphasizes cost-controlled analysis to forestall incentivizing overly expensive, leaderboard-focused brokers. This precept serves as one in every of our core analysis inspirations. 

Importantly, syftr can be orthogonal to LLM-as-optimizer frameworks like Hint and TextGrad, and generic circulate optimizers like DSPy. Such frameworks might be mixed with syftr to additional optimize prompts in workflows. 

In early experiments, syftr first recognized Pareto-optimal workflows on the CRAG Sports activities benchmark.

We then utilized Hint to optimize prompts throughout all of these configurations — taking a two-stage strategy: multi-objective workflow search adopted by fine-grained immediate tuning.

The end result: notable accuracy enhancements, particularly in low-cost workflows that originally exhibited decrease accuracy (these clustered within the lower-left of the Pareto frontier). These features counsel that post-hoc immediate optimization can meaningfully enhance efficiency, even in extremely cost-constrained settings.

This two-stage strategy — first multi-objective configuration search, then immediate refinement — highlights the advantages of mixing syftr with specialised downstream instruments, enabling modular and versatile workflow optimization methods.

Constructing and lengthening syftr’s search area

Syftr cleanly separates the workflow search area from the underlying optimization algorithm. This modular design permits customers to simply lengthen or customise the area, including or eradicating flows, fashions, and elements by modifying configuration information.

The default implementation makes use of Multi-Goal Tree-of-Parzen-Estimators (MOTPE), however syftr helps swapping in different optimization methods.

Contributions of latest flows, modules, or algorithms are welcomed by way of pull request at github.com/datarobot/syftr.

Constructed on the shoulders of open supply

syftr builds on quite a few highly effective open supply libraries and frameworks:

• Ray for distributing and scaling search over massive clusters of CPUs and GPUs
• Ray Serve for autoscaling mannequin internet hosting
• Optuna for its versatile define-by-run interface (much like PyTorch’s keen execution) and help for state-of-the-art multi-objective optimization algorithms
• LlamaIndex for constructing refined agentic and non-agentic RAG workflows

• HuggingFace Datasets for quick, collaborative, and uniform dataset interface
• Hint for optimizing textual elements inside workflows, similar to prompts

syftr is framework-agnostic: workflows might be constructed utilizing any orchestration library or modeling stack. This flexibility permits customers to increase or adapt syftr to suit all kinds of tooling preferences.

Case examine: syftr on CRAG Sports activities

Benchmark setup

The CRAG benchmark dataset was launched by Meta for the KDD Cup 2024 and contains three duties:

• Activity 1: Retrieval summarization
• Activity 2: Information graph and net retrieval
• Activity 3: Finish-to-end RAG

syftr was evaluated on Activity 3 (CRAG3), which incorporates 4,400 QA pairs spanning a variety of subjects. The official benchmark performs RAG over 50 webpages retrieved for every query. 

To extend problem, we mixed all webpages throughout all questions right into a single corpus, making a extra real looking, difficult retrieval setting.

Key observations and insights

Throughout datasets, syftr constantly surfaces significant optimization patterns:

• Non-agentic workflows dominate the Pareto frontier. They’re sooner and cheaper, main the optimizer to favor these configurations extra often than agentic ones.
• GPT-4o-mini often seems in Pareto-optimal flows, suggesting it presents a robust steadiness of high quality and price as a synthesizing LLM.
• Reasoning fashions like o3-mini carry out effectively on quantitative duties (e.g., FinanceBench, InfiniteBench), seemingly on account of their multi-hop reasoning capabilities.
• Pareto frontiers finally flatten after an preliminary rise, with diminishing returns in accuracy relative to steep value will increase, underscoring the necessity for instruments like syftr that assist pinpoint environment friendly working factors.

  We routinely discover that the workflow on the knee level of the Pareto frontier loses only a few share factors in accuracy in comparison with essentially the most correct setup — whereas being 10x cheaper.

  syftr makes it simple to seek out that candy spot.

Value of operating syftr

In our experiments, we allotted a price range of ~500 workflow evaluations per job. Though actual prices differ based mostly on the dataset and search area complexity, we constantly recognized sturdy Pareto frontiers with a one-time search value of roughly $500 per use case.

We anticipate this value to lower as extra environment friendly search algorithms and area definitions are developed.

Importantly, this preliminary funding is minimal relative to the long-term features from deploying optimized workflows, whether or not by way of decreased compute utilization, improved accuracy, or higher person expertise in high-traffic techniques.

For detailed outcomes throughout six benchmark duties, together with datasets past CRAG, seek advice from the full syftr paper. 

Getting began and contributing

To get began with syftr, clone or fork the repository on GitHub. Benchmark datasets can be found on HuggingFace, and syftr additionally helps user-defined datasets for customized experimentation.

The present search area contains:

• 9 proprietary LLMs
• 11 embedding fashions
• 4 normal immediate methods
• 3 retrievers
• 4 textual content splitters (with parameter configurations)
• 4 agentic RAG flows and 1 non-agentic RAG circulate, every with related hierarchical hyperparameters

New elements, similar to fashions, flows, or search modules, might be added or modified by way of configuration information. Detailed walkthroughs can be found to help customization.

syftr is developed absolutely within the open. We welcome contributions by way of pull requests, function proposals, and benchmark studies. We’re notably concerned about concepts that advance the analysis path or enhance the framework’s extensibility.

What’s forward for syftr

syftr continues to be evolving, with a number of lively areas of analysis designed to increase its capabilities and sensible impression:

• Meta-learning
  At present, every search is carried out from scratch. We’re exploring meta-learning strategies that leverage prior runs throughout comparable duties to speed up and information future searches.
• Multi-agent workflow analysis
  Whereas multi-agent techniques are gaining traction, they introduce extra complexity and price. We’re investigating how these workflows examine to single-agent and non-agentic pipelines, and when their tradeoffs are justified.
• Composability with immediate optimization frameworks
  syftr is complementary to instruments like DSPy, Hint, and TextGrad, which optimize textual elements inside workflows. We’re exploring methods to extra deeply combine these techniques to collectively optimize construction and language.
• Extra agentic duties
  We began with question-answer duties, a essential manufacturing use case for brokers. Subsequent, we plan to quickly broaden syftr’s job repertoire to code technology, knowledge evaluation, and interpretation. We additionally invite the group to counsel extra duties for syftr to prioritize.

As these efforts progress, we purpose to broaden syftr’s worth as a analysis instrument, a benchmarking framework, and a sensible assistant for system-level generative AI design.

When you’re working on this area, we welcome your suggestions, concepts, and contributions.

Strive the code, learn the analysis

To discover syftr additional, try the GitHub repository or learn the complete paper on ArXiv for particulars on methodology and outcomes.

Syftr has been accepted to seem on the Worldwide Convention on Automated Machine Studying (AutoML) in September, 2025 in New York Metropolis.

We look ahead to seeing what you construct and discovering what’s subsequent, collectively.