Compare/CrabTrap vs Together AI Inference-Time Compute API

AI tool comparison

CrabTrap vs Together AI Inference-Time Compute API

Which one should you ship with? Here is the side-by-side panel verdict, pricing read, reviewer split, and community vote comparison.

C

Developer Tools

CrabTrap

Open-source HTTP proxy that enforces security policies on AI agent API calls

Mixed

50%

Panel ship

Community

Paid

Entry

CrabTrap is an open-source HTTP/HTTPS proxy built by Brex's engineering team that sits between AI agents and the external internet, evaluating every outbound request against configurable security policies before it reaches any third-party API. It uses a two-tier evaluation system: fast deterministic static rules handle the obvious cases (block this domain, require this header), while an LLM-as-a-judge handles ambiguous requests that need semantic understanding — like determining whether a request to send an email is within scope of the current task. Built in Go with a TypeScript frontend, CrabTrap ships with a PostgreSQL-backed audit log and a web UI for policy management. It supports MITM inspection of HTTPS traffic, request/response logging, and policy versioning — making it suitable for production agentic systems where compliance or security teams need a paper trail. Version 0.0.1 was released April 17, 2026 and is MIT licensed. The problem it solves is real: as AI agents gain more autonomy and access to external APIs, the attack surface grows. A compromised or misbehaving agent that can freely call any URL is a significant risk. CrabTrap gives engineering teams a single chokepoint to enforce least-privilege access — something that's been missing from most agentic frameworks that assume a trusted execution environment.

T

Developer Tools

Together AI Inference-Time Compute API

Scale accuracy at inference with majority-vote and best-of-N sampling

Ship

75%

Panel ship

Community

Paid

Entry

Together AI's Inference-Time Compute API lets developers apply majority-vote and best-of-N selection strategies directly at the API layer to improve reasoning model accuracy without retraining. Developers can configure how many samples to generate and which selection strategy to use, trading compute for correctness on hard reasoning tasks. It targets use cases where a single model pass isn't reliable enough — math, code, and structured reasoning — by aggregating multiple generations into a single higher-quality output.

Decision
CrabTrap
Together AI Inference-Time Compute API
Panel verdict
Mixed · 2 ship / 2 skip
Ship · 3 ship / 1 skip
Community
No community votes yet
No community votes yet
Pricing
Open Source (MIT)
Pay-per-token (multiplied by N samples); no fixed tier — cost scales with compute used
Best for
Open-source HTTP proxy that enforces security policies on AI agent API calls
Scale accuracy at inference with majority-vote and best-of-N sampling
Category
Developer Tools
Developer Tools

Reviewer scorecard

Builder
80/100 · ship

This fills a gap that every production agentic system needs but almost no one has solved yet. The two-tier policy engine — static rules for speed, LLM for ambiguity — is the right architecture. The fact that Brex built and open-sourced this suggests they've already battle-tested it against real agent deployments.

82/100 · ship

The primitive here is clean: wrap N parallel inference calls with a selection policy (majority vote or best-of-N scorer) and expose it as a single API parameter. That's the right abstraction — the complexity lives in the API layer, not in the caller's code. The DX bet is that developers shouldn't have to implement fan-out sampling logic themselves, and that bet is correct — running majority-vote naively means managing async calls, deduplication, and tie-breaking, which is annoying to get right. The specific technical decision that earns the ship: making N and the selection strategy first-class API parameters rather than a separate SDK or service layer means you can adopt this in one line of changed code, which is exactly where this kind of complexity should live.

Skeptic
45/100 · skip

v0.0.1 with 126 GitHub stars is a weekend project right now, not infrastructure you should bet your production agents on. The LLM-as-a-judge for policy evaluation is also expensive and introduces its own latency — you're adding an AI call to evaluate every AI agent call. The operational complexity of running MITM HTTPS inspection in production is non-trivial.

74/100 · ship

Direct competitors are OpenAI's o-series with native best-of at the model level and self-hosted vLLM with sampling_n — both of which developers already use. What Together ships here is a managed version of a pattern that's well-understood, which is either obvious or genuinely useful depending on your infrastructure situation. Where this breaks: at high N values with long reasoning traces, costs multiply fast and latency becomes a product problem, not just an engineering one — and there's no mention of whether the scoring model for best-of-N is exposed or a black box. What kills this in 12 months: the major model providers ship native inference-time compute configuration that's tightly coupled to their own models, making provider-agnostic options less compelling. What earns the ship today: developers who want to apply this to open models without managing their own inference cluster have a real need that Together actually addresses.

Futurist
80/100 · ship

Agent security tooling is where network security tooling was in the early 2000s — primitive, fragmented, and urgently needed. CrabTrap is an early bet on a category that will be worth billions once enterprises start mandating audit trails for agentic systems. Brex building this in-house and open-sourcing it is a strong signal of what production agent operators actually need.

78/100 · ship

The thesis here is falsifiable: scaling inference compute per query is a better return on investment than scaling training compute for reliability-sensitive tasks, and developers want that control surfaced at the API layer rather than baked into a specific model. The trend this rides is the inference-time scaling research that came out of 2024 — Together is early to productizing it as a generic API primitive rather than a model-specific feature, and that timing matters. The second-order effect that's underappreciated: once developers can dial accuracy vs. cost per request, they start building tiered products where cheap-and-fast handles 80% of queries and expensive-and-accurate handles the critical path — that's a new product architecture pattern, not just a performance knob. The future state where this is infrastructure: every serious LLM API offers inference-time compute budgeting as a standard parameter, and Together's head start on the API design shapes what that standard looks like.

Creator
45/100 · skip

This is deeply in the DevOps/infrastructure lane — not something a creator or designer would ever touch directly. But if the tools you use to generate content are backed by CrabTrap-style security, you'd want that. For now, it's a ship for the engineers who configure your AI stack, a skip for everyone else.

No panel take
Founder
No panel take
55/100 · skip

The buyer is a developer or ML engineer at a company running accuracy-sensitive workloads — math tutoring, code generation, structured data extraction — and the budget comes from an AI infrastructure line. The pricing model is the problem: cost scales as N times the base token cost, which means the customers who get the most value are also the customers whose bills spike fastest, and there's no volume pricing or accuracy-based billing that aligns Together's revenue with customer success. The moat is thin — this is a sampling strategy layered on top of open models, and any inference provider can ship the same feature; Together's only defensible position is speed of iteration on open model support and pricing competitiveness. What would need to change for a ship: a pricing structure where Together captures a margin on the value of accuracy improvement rather than just multiplying the token cost, plus some proprietary scoring model for best-of-N that competitors can't trivially replicate.

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