Compare/Cursor 1.5 vs Together AI Inference Endpoints

AI tool comparison

Cursor 1.5 vs Together AI Inference Endpoints

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

Cursor 1.5

AI code editor now runs agents in the background while you do other things

Ship

100%

Panel ship

Community

Free

Entry

Cursor 1.5 is a major update to the AI-native code editor that introduces background agent execution, letting long-running coding tasks continue without keeping the IDE in focus. The update also ships shared team-level rules for enterprise accounts, a revamped memory panel, and measurable latency improvements for autocomplete. Together these features push Cursor from an interactive pair-programmer toward something closer to an asynchronous coding collaborator.

T

Developer Tools

Together AI Inference Endpoints

Dedicated open-source model inference with a contractual sub-100ms SLA

Ship

75%

Panel ship

Community

Paid

Entry

Together AI now offers dedicated inference endpoints for major open-source models including Llama 4 and Mistral variants, backed by a contractual sub-100ms latency SLA. The service targets production AI applications that need predictable, low-latency performance without the jitter of shared inference pools. It positions Together AI as a serious alternative to managed cloud inference from AWS Bedrock or Azure AI for teams running open-source models at scale.

Decision
Cursor 1.5
Together AI Inference Endpoints
Panel verdict
Ship · 4 ship / 0 skip
Ship · 3 ship / 1 skip
Community
No community votes yet
No community votes yet
Pricing
Free tier / $20/mo Pro / $40/mo Business / Enterprise custom
Usage-based / Dedicated endpoint pricing on request (contact sales for SLA tiers)
Best for
AI code editor now runs agents in the background while you do other things
Dedicated open-source model inference with a contractual sub-100ms SLA
Category
Developer Tools
Developer Tools

Reviewer scorecard

Builder
87/100 · ship

The primitive here is asynchronous agent execution decoupled from IDE focus — finally, you can kick off a refactor or test-writing task and context-switch without the whole thing dying. The DX bet is correct: the complexity is hidden in the runtime, not pushed onto the developer via config or orchestration boilerplate. The moment of truth is queuing a multi-file task, closing the tab, and coming back to a diff — and apparently it survives that test. Shared team rules is the feature that actually earns the enterprise tier: replacing the tribal knowledge of per-developer .cursorrules files with a versioned, shared config is the kind of mundane-but-real problem that unlocks actual team adoption. The autocomplete latency improvement is the only claim I'd want benchmarks on before citing it.

78/100 · ship

The primitive here is straightforward: dedicated compute allocation for open-source model inference with a contractual latency floor — not shared, not burstable, not 'best effort.' The DX bet is that production teams want to stop babysitting p99 latency graphs and just get a number they can put in their SLA doc. That's the right call. The moment of truth is when you point your production traffic at a dedicated endpoint and your tail latencies actually hold — and unlike shared inference pools, dedicated allocation means you're not racing your neighbors for GPU cycles. The weekend alternative (spinning your own vLLM on a reserved A100 instance) is absolutely real, but the SLA contract and the managed ops overhead is what you're paying for here. I'd want to see the actual SLA remediation terms before fully committing, but the core infrastructure bet is sound.

Skeptic
78/100 · ship

Background agent execution is the one feature that separates Cursor from GitHub Copilot in a meaningful, non-cosmetic way — Copilot hasn't shipped async task delegation at the IDE level, and that gap is real enough to matter today. The scenario where this breaks is multi-repo or monorepo tasks that cross service boundaries: background agents operating on partial context without a human in the loop will produce confident wrong diffs, and the memory panel won't save you there. What kills this in 12 months isn't a competitor — it's OpenAI or Anthropic shipping native IDE integrations with the same async primitive baked into their own tooling, collapsing the moat. But right now, the team rules feature alone justifies the Business tier for any eng team above 10 people, so this ships.

72/100 · ship

Direct competitors are AWS Bedrock reserved throughput, Azure AI model deployments, and Fireworks AI — all of whom have been selling dedicated inference with latency guarantees for months. The specific scenario where Together breaks down is enterprise procurement: 'contact sales' pricing on the SLA tier means zero self-serve for the teams who need this most, and procurement cycles kill momentum. What kills this in 12 months is not a competitor — it's Llama 4 and Mistral becoming first-class citizens on hyperscaler managed services, at which point Together's open-source model advantage shrinks to a thin margin play. What earns the ship is that sub-100ms as a *contractual* commitment, not a marketing claim, is genuinely differentiated right now — if the remediation terms have teeth, this is real infrastructure.

Founder
82/100 · ship

The buyer here is clear: VP Eng or CTO at a 20-200 person company, paid from the dev tooling budget, justified by reduced context-switching cost and standardized AI behavior across the team. Shared team rules is the expansion revenue mechanism — it's the feature that converts individual Pro subscribers into Business accounts, and that's a real land-and-expand wedge built into the product itself rather than bolted on by a sales team. The moat question is harder: Anysphere's defensibility depends on workflow lock-in through memory and rules accumulation, which gets stickier the longer a team uses it, but the underlying model access is still commoditized. The risk is that VS Code's own AI layer catches up fast enough that the switching cost never fully sets. For now, the unit economics on the Business tier are credible.

55/100 · skip

The buyer is clear — it's the ML infrastructure lead at a Series B+ company running open-source models in production — but the pricing architecture is not. 'Contact sales' for SLA tiers means Together is pricing this as an enterprise deal when the natural motion of developer-led AI tooling is self-serve with expansion. The moat question is real: Together's defensibility here is operational expertise running open-source models at scale, but that's a people moat, not a product moat. The moment Llama 4 gets native optimized inference on any hyperscaler with an SLA, Together has to compete on price alone. The business survives if they use dedicated endpoints as a wedge into enterprise contracts with broader platform consumption — but I don't see evidence that's the strategy, and a single product with contact-sales pricing is a services business dressed as a SaaS.

Futurist
84/100 · ship

The thesis Cursor 1.5 is betting on: within two years, developers will manage fleets of concurrent async coding tasks rather than typing code themselves, and the IDE becomes a task dispatcher rather than a text editor. Background agent execution is the first real infrastructure bet on that trajectory — not a demo, an actual runtime change. The dependency that has to hold is that agents remain good enough to be trusted with multi-step tasks but not so good that the IDE layer becomes irrelevant entirely; Cursor is threading a specific needle in that window. The second-order effect nobody is talking about: shared team rules start to function as organizational AI policy, meaning the eng team — not IT, not legal — becomes the de facto owner of how AI behaves in the codebase. That's a power shift worth watching. Cursor is early on the async-agent trend line and building the right primitives for it.

75/100 · ship

The thesis here is falsifiable: in 2-3 years, production AI applications will be built predominantly on open-source models, and the infrastructure layer that wins will be the one that offers hyperscaler-grade reliability guarantees without hyperscaler lock-in. For that to pay off, open-source model quality has to keep closing the gap with closed frontier models — which it's doing — and enterprises have to accept that running on third-party managed infrastructure for open-source is preferable to self-hosting, which is less certain. The second-order effect that matters: if contractual SLAs normalize for open-source inference, it removes the last credible objection enterprises have to not using GPT-4 or Claude — the 'we need guaranteed uptime and a contract' objection disappears. Together is on-time to this trend, not early, which means execution is everything and first-mover advantage is already gone.

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