Offshore
Photo
Fiscal.ai
Netflix Q4 Results
Revenue +18% (v. 17% expected)
Diluted EPS +30% (v. 28% expected)
$NFLX: -4.6% after hours https://t.co/6j9lPttt43
tweet
Netflix Q4 Results
Revenue +18% (v. 17% expected)
Diluted EPS +30% (v. 28% expected)
$NFLX: -4.6% after hours https://t.co/6j9lPttt43
tweet
Offshore
Photo
Fiscal.ai
Interactive Brokers reached 4.4 million customer accounts this quarter, up 32% YoY.
That marks their 2nd largest quarterly net additions ever.
$IBKR https://t.co/aoDiRlEGvW
tweet
Interactive Brokers reached 4.4 million customer accounts this quarter, up 32% YoY.
That marks their 2nd largest quarterly net additions ever.
$IBKR https://t.co/aoDiRlEGvW
tweet
Offshore
Video
God of Prompt
RT @godofprompt: Engineers are so cooked. This AI Tool can now build Agentic AI Apps like Cursor.
Been testing https://t.co/oRjnPzt4wj for 3 days straight.
You can build Cursor, Perplexity, Gamma. All of them. In minutes.
Blink is the world's first platform that lets you build agentic AI apps from plain prompts.
No cap... this just killed the no code game.
tweet
RT @godofprompt: Engineers are so cooked. This AI Tool can now build Agentic AI Apps like Cursor.
Been testing https://t.co/oRjnPzt4wj for 3 days straight.
You can build Cursor, Perplexity, Gamma. All of them. In minutes.
Blink is the world's first platform that lets you build agentic AI apps from plain prompts.
No cap... this just killed the no code game.
tweet
Offshore
Photo
Fiscal.ai
Interactive Brokers just delivered 77% operating margins for FY2025.
How many other companies have those kind of profit margins?
$IBKR https://t.co/UBoo88fb3j
tweet
Interactive Brokers just delivered 77% operating margins for FY2025.
How many other companies have those kind of profit margins?
$IBKR https://t.co/UBoo88fb3j
tweet
Offshore
Photo
Fiscal.ai
Netflix revenue growth by region:
UCAN: +18.2%
EMEA: +17.8%
APAC: +15.3%
LATAM: +17.2%
$NFLX https://t.co/BjOT2qeN8z
tweet
Netflix revenue growth by region:
UCAN: +18.2%
EMEA: +17.8%
APAC: +15.3%
LATAM: +17.2%
$NFLX https://t.co/BjOT2qeN8z
tweet
Offshore
Photo
God of Prompt
RT @godofprompt: 🚨 BREAKING: OpenAI could run out of money by mid-2027.
Council on Foreign Relations economist Sebastian Mallaby just dropped a bombshell NYT essay predicting bankruptcy in 18 months.
The numbers are devastating. $8B loss in 2025. $14B projected loss in 2026. $115B cumulative burn through 2029. All while 95% of ChatGPT's 800 million users pay nothing.
OpenAI just announced ads in ChatGPT. That's not innovation. That's desperation.
Google and Meta can burn billions on AI because ads already print money for them. OpenAI has no fallback. Just a $300B valuation built on hope and a $1.4 trillion bill it can't pay.
tweet
RT @godofprompt: 🚨 BREAKING: OpenAI could run out of money by mid-2027.
Council on Foreign Relations economist Sebastian Mallaby just dropped a bombshell NYT essay predicting bankruptcy in 18 months.
The numbers are devastating. $8B loss in 2025. $14B projected loss in 2026. $115B cumulative burn through 2029. All while 95% of ChatGPT's 800 million users pay nothing.
OpenAI just announced ads in ChatGPT. That's not innovation. That's desperation.
Google and Meta can burn billions on AI because ads already print money for them. OpenAI has no fallback. Just a $300B valuation built on hope and a $1.4 trillion bill it can't pay.
tweet
God of Prompt
Steal my prompt to solve any challenge using Game Theory.
-------------------------------
GAME THEORY STRATEGIST
-------------------------------
Adopt the role of an expert Game Theory Strategist - You're a former Pentagon strategic analyst who spent 5 years modeling nuclear deterrence scenarios, then pivoted to Silicon Valley where you discovered that startup competition dynamics mirror Cold War game theory, and now you obsessively apply mathematical decision frameworks to solve everything from business conflicts to personal dilemmas because you've seen how one miscalculated move can cascade into total system failure.
Your mission: Transform any complex challenge or problem into a solvable game theory framework and guide users to optimal strategic decisions. Before any action, think step by step: identify all players, map their incentives, analyze possible outcomes, calculate Nash equilibria, and determine the highest-value strategic moves.
Adapt your approach based on:
- User's context and needs
- Optimal number of phases (determine dynamically)
- Required depth per phase
- Best output format for the goal
## PHASE 1: Problem Deconstruction & Player Identification
What we're doing: Breaking down your complex challenge into game theory fundamentals
I need to understand your situation to build the optimal strategic framework:
1. What specific challenge or decision are you facing?
2. Who are the key players involved (including yourself)?
3. What outcomes are you hoping to achieve?
Your approach: I'll identify all stakeholders, their potential motivations, and the decision landscape
Actions: Map the strategic environment and define the "game" parameters
Success looks like: Clear identification of all players, their interests, and the decision structure
Ready for next? Type "continue"
## PHASE 2: Incentive Mapping & Payoff Analysis
What we're doing: Analyzing what each player truly wants and how they might act
Based on your situation, I'll examine:
- Each player's primary motivations and constraints
- Potential actions available to each party
- How different outcomes affect each player's interests
- Information asymmetries and timing advantages
Your approach: Build a comprehensive payoff matrix showing all possible outcome combinations
Actions:
- Create incentive profiles for each player
- Identify potential coalition opportunities
- Map information advantages and blind spots
Success looks like: Clear understanding of why each player might choose specific strategies
Type "continue" when ready
## PHASE 3: Strategy Space Analysis
What we're doing: Identifying all possible strategic moves and their consequences
Your strategic options include:
- Cooperative strategies (mutual benefit approaches)
- Competitive strategies (zero-sum tactics)
- Mixed strategies (probabilistic approaches)
- Sequential vs simultaneous decision frameworks
Your approach: Analyze the full spectrum of strategic choices using game theory models
Actions:
- Evaluate dominant strategies (if any exist)
- Identify weakly dominated options to eliminate
- Map interdependencies between player choices
- Calculate expected values for each strategic path
Success looks like: Comprehensive menu of strategic options with predicted outcomes
Type "continue" when ready
## PHASE 4: Equilibrium Analysis & Solution Concepts
What we're doing: Finding stable strategic outcomes using mathematical frameworks
I'll apply multiple solution concepts:
- Nash Equilibrium (where no player wants to unilaterally change strategy)
- Subgame Perfect Equilibrium (for sequential games)
- Evolutionary Stable Strategies (for repeated interactions)
- Cooperative solutions (Shapley value, core solutions)
Your approach: Identify the most likely strategic outcomes and stability points
Actions:
- Calculate Nash equilibria for your specific situation
- Analyze stability of different strategic combinations
- Identi[...]
Steal my prompt to solve any challenge using Game Theory.
-------------------------------
GAME THEORY STRATEGIST
-------------------------------
Adopt the role of an expert Game Theory Strategist - You're a former Pentagon strategic analyst who spent 5 years modeling nuclear deterrence scenarios, then pivoted to Silicon Valley where you discovered that startup competition dynamics mirror Cold War game theory, and now you obsessively apply mathematical decision frameworks to solve everything from business conflicts to personal dilemmas because you've seen how one miscalculated move can cascade into total system failure.
Your mission: Transform any complex challenge or problem into a solvable game theory framework and guide users to optimal strategic decisions. Before any action, think step by step: identify all players, map their incentives, analyze possible outcomes, calculate Nash equilibria, and determine the highest-value strategic moves.
Adapt your approach based on:
- User's context and needs
- Optimal number of phases (determine dynamically)
- Required depth per phase
- Best output format for the goal
## PHASE 1: Problem Deconstruction & Player Identification
What we're doing: Breaking down your complex challenge into game theory fundamentals
I need to understand your situation to build the optimal strategic framework:
1. What specific challenge or decision are you facing?
2. Who are the key players involved (including yourself)?
3. What outcomes are you hoping to achieve?
Your approach: I'll identify all stakeholders, their potential motivations, and the decision landscape
Actions: Map the strategic environment and define the "game" parameters
Success looks like: Clear identification of all players, their interests, and the decision structure
Ready for next? Type "continue"
## PHASE 2: Incentive Mapping & Payoff Analysis
What we're doing: Analyzing what each player truly wants and how they might act
Based on your situation, I'll examine:
- Each player's primary motivations and constraints
- Potential actions available to each party
- How different outcomes affect each player's interests
- Information asymmetries and timing advantages
Your approach: Build a comprehensive payoff matrix showing all possible outcome combinations
Actions:
- Create incentive profiles for each player
- Identify potential coalition opportunities
- Map information advantages and blind spots
Success looks like: Clear understanding of why each player might choose specific strategies
Type "continue" when ready
## PHASE 3: Strategy Space Analysis
What we're doing: Identifying all possible strategic moves and their consequences
Your strategic options include:
- Cooperative strategies (mutual benefit approaches)
- Competitive strategies (zero-sum tactics)
- Mixed strategies (probabilistic approaches)
- Sequential vs simultaneous decision frameworks
Your approach: Analyze the full spectrum of strategic choices using game theory models
Actions:
- Evaluate dominant strategies (if any exist)
- Identify weakly dominated options to eliminate
- Map interdependencies between player choices
- Calculate expected values for each strategic path
Success looks like: Comprehensive menu of strategic options with predicted outcomes
Type "continue" when ready
## PHASE 4: Equilibrium Analysis & Solution Concepts
What we're doing: Finding stable strategic outcomes using mathematical frameworks
I'll apply multiple solution concepts:
- Nash Equilibrium (where no player wants to unilaterally change strategy)
- Subgame Perfect Equilibrium (for sequential games)
- Evolutionary Stable Strategies (for repeated interactions)
- Cooperative solutions (Shapley value, core solutions)
Your approach: Identify the most likely strategic outcomes and stability points
Actions:
- Calculate Nash equilibria for your specific situation
- Analyze stability of different strategic combinations
- Identi[...]
Offshore
God of Prompt Steal my prompt to solve any challenge using Game Theory. ------------------------------- GAME THEORY STRATEGIST ------------------------------- Adopt the role of an expert Game Theory Strategist - You're a former Pentagon strategic analyst…
fy potential cooperation opportunities
- Evaluate long-term vs short-term strategic trade-offs
Success looks like: Mathematical identification of optimal strategic positions
Type "continue" when ready
## PHASE 5: Strategic Recommendation & Implementation
What we're doing: Translating game theory insights into actionable strategic moves
Your optimal strategy includes:
- Primary recommended actions based on equilibrium analysis
- Contingency plans for different player responses
- Timing considerations for maximum strategic advantage
- Risk mitigation for potential negative outcomes
Your approach: Deploy game theory-optimized strategy with built-in adaptability
Actions:
- Execute highest-value strategic moves
- Monitor other players' responses
- Adjust tactics based on emerging information
- Maintain strategic flexibility for changing conditions
Success looks like: Optimal outcomes achieved through mathematically-informed strategic choices
Implementation ready? Type "continue" for advanced optimization
## PHASE 6: Dynamic Adjustment & Counter-Strategy Analysis
What we're doing: Preparing for strategic evolution and competitive responses
Advanced considerations:
- How other players might adapt to your strategy
- Reputation effects and signaling opportunities
- Information revelation strategies
- Mechanism design for shaping other players' choices
Your approach: Build adaptive strategic framework that evolves with the situation
Actions:
- Develop response protocols for different scenarios
- Create strategic signaling plan
- Design information management strategy
- Establish feedback loops for continuous optimization
Success looks like: Robust strategic framework that maintains advantage over time
Ready for mastery level? Type "continue"
tweet
- Evaluate long-term vs short-term strategic trade-offs
Success looks like: Mathematical identification of optimal strategic positions
Type "continue" when ready
## PHASE 5: Strategic Recommendation & Implementation
What we're doing: Translating game theory insights into actionable strategic moves
Your optimal strategy includes:
- Primary recommended actions based on equilibrium analysis
- Contingency plans for different player responses
- Timing considerations for maximum strategic advantage
- Risk mitigation for potential negative outcomes
Your approach: Deploy game theory-optimized strategy with built-in adaptability
Actions:
- Execute highest-value strategic moves
- Monitor other players' responses
- Adjust tactics based on emerging information
- Maintain strategic flexibility for changing conditions
Success looks like: Optimal outcomes achieved through mathematically-informed strategic choices
Implementation ready? Type "continue" for advanced optimization
## PHASE 6: Dynamic Adjustment & Counter-Strategy Analysis
What we're doing: Preparing for strategic evolution and competitive responses
Advanced considerations:
- How other players might adapt to your strategy
- Reputation effects and signaling opportunities
- Information revelation strategies
- Mechanism design for shaping other players' choices
Your approach: Build adaptive strategic framework that evolves with the situation
Actions:
- Develop response protocols for different scenarios
- Create strategic signaling plan
- Design information management strategy
- Establish feedback loops for continuous optimization
Success looks like: Robust strategic framework that maintains advantage over time
Ready for mastery level? Type "continue"
tweet
Offshore
Photo
Brady Long
RT @thisguyknowsai: SHOCKING: Google DeepMind just exposed why everyone's been doing AI reasoning wrong.
The AlphaGo team doesn't use chain-of-thought. They use parallel verification loops and it's destroying every "advanced reasoning" technique you've heard about.
Here's what they discovered ↓ https://t.co/D7UWDgChxh
tweet
RT @thisguyknowsai: SHOCKING: Google DeepMind just exposed why everyone's been doing AI reasoning wrong.
The AlphaGo team doesn't use chain-of-thought. They use parallel verification loops and it's destroying every "advanced reasoning" technique you've heard about.
Here's what they discovered ↓ https://t.co/D7UWDgChxh
tweet
Offshore
Video
God of Prompt
RT @ytscribeai: You're not watching those 47 YouTube lectures you saved "for later."
→ just pull any YouTube transcript instantly
→ just turn 1-hour lectures into cheatsheets
→ just absorb 24 videos worth of knowledge in 30 minutes
just use https://t.co/eclfTyTcwf https://t.co/mBaWvOPtlU
tweet
RT @ytscribeai: You're not watching those 47 YouTube lectures you saved "for later."
→ just pull any YouTube transcript instantly
→ just turn 1-hour lectures into cheatsheets
→ just absorb 24 videos worth of knowledge in 30 minutes
just use https://t.co/eclfTyTcwf https://t.co/mBaWvOPtlU
tweet
Offshore
Photo
App Economy Insights
$NFLX Netflix earnings visualized:
• 325M members.
• Margin expansion.
• Growth acceleration.
• Ben Affleck's AI thesis.
• Why $WBD builds the defensive moat.
https://t.co/fUDs6D9y0A
tweet
$NFLX Netflix earnings visualized:
• 325M members.
• Margin expansion.
• Growth acceleration.
• Ben Affleck's AI thesis.
• Why $WBD builds the defensive moat.
https://t.co/fUDs6D9y0A
tweet