cost-aware-llm-pipeline
Cost optimization patterns for LLM API usage — model routing by task complexity, budget tracking, retry logic, and prompt caching.
How do I install this agent skill?
npx skills add https://github.com/affaan-m/everything-claude-code --skill cost-aware-llm-pipelineIs this agent skill safe to install?
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The skill provides a set of architectural patterns and code snippets for optimizing costs when using LLM APIs. No security issues or malicious behaviors were detected.
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What does this agent skill do?
Cost-Aware LLM Pipeline
Patterns for controlling LLM API costs while maintaining quality. Combines model routing, budget tracking, retry logic, and prompt caching into a composable pipeline.
When to Activate
- Building applications that call LLM APIs (Claude, GPT, etc.)
- Processing batches of items with varying complexity
- Need to stay within a budget for API spend
- Optimizing cost without sacrificing quality on complex tasks
Core Concepts
1. Model Routing by Task Complexity
Automatically select cheaper models for simple tasks, reserving expensive models for complex ones.
MODEL_SONNET = "claude-sonnet-4-6"
MODEL_HAIKU = "claude-haiku-4-5-20251001"
_SONNET_TEXT_THRESHOLD = 10_000 # chars
_SONNET_ITEM_THRESHOLD = 30 # items
def select_model(
text_length: int,
item_count: int,
force_model: str | None = None,
) -> str:
"""Select model based on task complexity."""
if force_model is not None:
return force_model
if text_length >= _SONNET_TEXT_THRESHOLD or item_count >= _SONNET_ITEM_THRESHOLD:
return MODEL_SONNET # Complex task
return MODEL_HAIKU # Simple task (3-4x cheaper)
2. Immutable Cost Tracking
Track cumulative spend with frozen dataclasses. Each API call returns a new tracker — never mutates state.
from dataclasses import dataclass
@dataclass(frozen=True, slots=True)
class CostRecord:
model: str
input_tokens: int
output_tokens: int
cost_usd: float
@dataclass(frozen=True, slots=True)
class CostTracker:
budget_limit: float = 1.00
records: tuple[CostRecord, ...] = ()
def add(self, record: CostRecord) -> "CostTracker":
"""Return new tracker with added record (never mutates self)."""
return CostTracker(
budget_limit=self.budget_limit,
records=(*self.records, record),
)
@property
def total_cost(self) -> float:
return sum(r.cost_usd for r in self.records)
@property
def over_budget(self) -> bool:
return self.total_cost > self.budget_limit
3. Narrow Retry Logic
Retry only on transient errors. Fail fast on authentication or bad request errors.
from anthropic import (
APIConnectionError,
InternalServerError,
RateLimitError,
)
_RETRYABLE_ERRORS = (APIConnectionError, RateLimitError, InternalServerError)
_MAX_RETRIES = 3
def call_with_retry(func, *, max_retries: int = _MAX_RETRIES):
"""Retry only on transient errors, fail fast on others."""
for attempt in range(max_retries):
try:
return func()
except _RETRYABLE_ERRORS:
if attempt == max_retries - 1:
raise
time.sleep(2 ** attempt) # Exponential backoff
# AuthenticationError, BadRequestError etc. → raise immediately
4. Prompt Caching
Cache long system prompts to avoid resending them on every request.
messages = [
{
"role": "user",
"content": [
{
"type": "text",
"text": system_prompt,
"cache_control": {"type": "ephemeral"}, # Cache this
},
{
"type": "text",
"text": user_input, # Variable part
},
],
}
]
Composition
Combine all four techniques in a single pipeline function:
def process(text: str, config: Config, tracker: CostTracker) -> tuple[Result, CostTracker]:
# 1. Route model
model = select_model(len(text), estimated_items, config.force_model)
# 2. Check budget
if tracker.over_budget:
raise BudgetExceededError(tracker.total_cost, tracker.budget_limit)
# 3. Call with retry + caching
response = call_with_retry(lambda: client.messages.create(
model=model,
messages=build_cached_messages(system_prompt, text),
))
# 4. Track cost (immutable)
record = CostRecord(model=model, input_tokens=..., output_tokens=..., cost_usd=...)
tracker = tracker.add(record)
return parse_result(response), tracker
Pricing Reference (2025-2026)
| Model | Input ($/1M tokens) | Output ($/1M tokens) | Relative Cost |
|---|---|---|---|
| Haiku 4.5 | $0.80 | $4.00 | 1x |
| Sonnet 4.6 | $3.00 | $15.00 | ~4x |
| Opus 4.5 | $15.00 | $75.00 | ~19x |
Best Practices
- Start with the cheapest model and only route to expensive models when complexity thresholds are met
- Set explicit budget limits before processing batches — fail early rather than overspend
- Log model selection decisions so you can tune thresholds based on real data
- Use prompt caching for system prompts over 1024 tokens — saves both cost and latency
- Never retry on authentication or validation errors — only transient failures (network, rate limit, server error)
Anti-Patterns to Avoid
- Using the most expensive model for all requests regardless of complexity
- Retrying on all errors (wastes budget on permanent failures)
- Mutating cost tracking state (makes debugging and auditing difficult)
- Hardcoding model names throughout the codebase (use constants or config)
- Ignoring prompt caching for repetitive system prompts
When to Use
- Any application calling Claude, OpenAI, or similar LLM APIs
- Batch processing pipelines where cost adds up quickly
- Multi-model architectures that need intelligent routing
- Production systems that need budget guardrails
How can the creator link this skill?
Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.
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