Summary
Exposes negotiation math as MCP tools: create a session, add issues with ranked options, record preferences, set your BATNA, then generate three iso-utility counteroffers or analyze deals against the Pareto frontier. Uses MILP optimization to infer counterpart priorities from their reactions and compute value splits based on leverage. Runs the math without burning LLM tokens on calculation. Your agent handles the conversation, Zopaf handles the optimization. Useful for job offers, term sheets, vendor contracts, or any multi-issue negotiation where you want efficient frontier analysis instead of guessing which concessions to make. Includes set_issue_range for numeric scoring, process_counterpart_response for revealed preference learning, and analyze_deal for post-hoc evaluation.
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Zopaf Negotiation Engine -- MCP Server
A negotiation math engine exposed as MCP tools that any AI agent can call. Zopaf computes Pareto frontiers, generates iso-utility counteroffers, and infers counterpart priorities from their reactions -- all through pure MILP optimization. Zero LLM tokens burned. The calling agent handles the conversation; Zopaf handles the math.
Quick Start
Claude Desktop
Add to your Claude Desktop configuration (claude_desktop_config.json):
{
"mcpServers": {
"zopaf": {
"type": "streamable-http",
"url": "https://zopaf-mcp-production.up.railway.app/mcp"
}
}
}
Claude Code
claude mcp add zopaf --transport streamable-http https://zopaf-mcp-production.up.railway.app/mcp
Generic MCP Client
Connect to the Streamable HTTP endpoint:
URL: https://zopaf-mcp-production.up.railway.app/mcp
Transport: Streamable HTTP
Tools Reference
| Tool | Description |
|---|---|
create_session | Create a new negotiation session. Returns a session_id used by all other tools. |
add_issue | Add a negotiable issue/term with options ordered worst to best for the user. |
set_issue_range | Set the acceptable range for a numeric issue, enabling 0-100 scoring. |
record_preference | Record that the user prioritizes some issues over others. Updates the weight model. |
set_batna | Record the user's alternatives if the deal falls through. Determines leverage. |
generate_counteroffers | Generate 3 iso-utility counteroffers to present simultaneously. |
process_counterpart_response | Process the counterpart's reaction to infer their priorities and generate a round-2 offer. |
analyze_deal | Score a specific deal against the Pareto frontier. Shows value captured and suggested trades. |
get_negotiation_state | Get current model state: issues, weights, BATNA, frontier size, and recommended next step. |
How It Works
-
Create session -- Initialize a new negotiation model with
create_session. -
Add issues -- Define the terms on the table with
add_issue. Each issue includes options ordered worst to best for the user (e.g., Salary:['$150K', '$160K', '$170K', '$180K']). -
Set ranges -- For numeric issues, call
set_issue_rangeto map values onto a 0-100 scoring scale. -
Record preferences -- Call
record_preferenceas you learn what the user cares about. Each call updates the internal weight model. -
Set BATNA -- Use
set_batnato record alternatives. The number and quality determines leverage strength and anchoring strategy. -
Generate 3 counteroffers -- Call
generate_counteroffersto produce three packages that are equally good for the user but structured differently. Present ALL THREE simultaneously. Never lead with one and fall back to another. -
Process counterpart response -- Call
process_counterpart_responsewith which package they preferred and what they pushed back on. The engine infers their hidden priorities. -
Get round-2 offer -- Returns a refined offer on the efficient frontier, with value split weighted by leverage.
Example: Job Offer Negotiation
create_session
-> {"session_id": "a1b2c3d4"}
add_issue(session_id="a1b2c3d4", issue_name="Salary", options=["$150K", "$160K", "$170K", "$180K"])
add_issue(session_id="a1b2c3d4", issue_name="Equity", options=["0.1%", "0.25%", "0.5%", "0.75%"])
add_issue(session_id="a1b2c3d4", issue_name="Signing Bonus", options=["$0", "$10K", "$20K", "$30K"])
add_issue(session_id="a1b2c3d4", issue_name="Remote Work", options=["On-site", "Hybrid", "Fully Remote"])
set_issue_range(issue_name="Salary", worst_acceptable=150000, best_hoped=180000,
option_values={"$150K": 150000, "$160K": 160000, "$170K": 170000, "$180K": 180000})
-> {"scores": {"$150K": 0.0, "$160K": 33.3, "$170K": 66.7, "$180K": 100.0}}
record_preference(preferred_issues=["Salary", "Equity"], over_issues=["Signing Bonus", "Remote Work"])
-> {"learned_weights": {"Salary": 0.345, "Equity": 0.345, "Signing Bonus": 0.155, "Remote Work": 0.155}}
set_batna(alternatives=["Competing offer from Company B at $165K", "Stay in current role"])
-> {"leverage_strength": "strong"}
generate_counteroffers(target_satisfaction="ambitious")
-> {
"counteroffers": [
{"label": "A", "terms": {"Salary": "$180K", "Equity": "0.25%", "Signing Bonus": "$10K", "Remote Work": "On-site"}},
{"label": "B", "terms": {"Salary": "$170K", "Equity": "0.5%", "Signing Bonus": "$0", "Remote Work": "Hybrid"}},
{"label": "C", "terms": {"Salary": "$160K", "Equity": "0.75%", "Signing Bonus": "$20K", "Remote Work": "On-site"}}
]
}
process_counterpart_response(preferred_package="B", pushback_issues=["Equity"])
-> {
"counterpart_priorities_inferred": {"Equity": 0.571, "Salary": 0.143, ...},
"round_2_offer": {"Salary": "$180K", "Equity": "0.25%", "Signing Bonus": "$20K", "Remote Work": "Hybrid"},
"value_split": "User gets 75% of surplus"
}
The engine inferred that the counterpart cares most about equity (57% of their weight). The round-2 offer concedes on equity -- where it costs the user less -- and captures value on salary and signing bonus. Both sides improve. The user captures 75% of the surplus based on their strong BATNA.
Use Cases
- Job offers -- Salary, equity, bonus, title, remote work, start date, PTO
- VC term sheets -- Valuation, board seats, liquidation preferences, anti-dilution, pro-rata rights
- Real estate -- Price, closing date, contingencies, repairs, inclusions, rent-back periods
- Vendor contracts -- Price, SLA guarantees, payment terms, exclusivity, renewal clauses
- Salary negotiations -- Base pay, bonus structure, review timeline, scope of role
- Business partnerships -- Revenue split, IP ownership, decision rights, exit clauses, territory
- Legal settlements -- Monetary terms, non-disclosure terms, admission of liability, timeline
Why Zero Tokens?
Zopaf is a math engine, not a language model. It runs MILP optimization and combinatorial scoring -- operations that are computationally cheap but tedious for an LLM to attempt in-context.
Your agent's LLM handles the conversation with the user, asks the right questions, and explains the strategy. Zopaf handles the optimization -- computing Pareto frontiers, generating iso-utility packages, solving preference weights from revealed choices, and positioning offers on the efficient frontier.
You bring the brain. Zopaf brings the calculator.
Featured
Keep your Mac awake while Claude Code and 40+ AI agents run. Sleeps when they're idle.
One time payment $9 →Integrate web data into your AI product. One API to scrape website & brand data.
Get API Key Now →Agent, run crypto. Access onchain data & trade routes via 1inch.
Install now →On Capafy, your Skill runs online 24/7 as an agent product, and you get paid every time someone uses it.
Start earning →
