See the pitch deck quantum computing startup Pasqal used to raise $29.3 million and compete with Google and IBM

Pasqal
arc beats above · slides in the middle · loops below · scroll → 2 LOOPS
SETUP TENSION ANALYSIS EVIDENCE RESOLUTION APPENDIX
HOVER FOR DETAILS · CLICK A SLIDE FOR FULLSCREEN · STEP 1
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Deck intelligence map

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Problem 1 slides 100% 1/1 slides 100% 1/1 slides · 8 hits
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100% 1/1 slides 100% 1/1 slides Market Size 1 slides 100% 1/1 slides 100% 1/1 slides · 6 hits
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Slide inventory

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every slide · same image gating as the playbook
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Slide 1
front_matter
02
argue_timing
Open slide detailBeat · ProblemLoop · Why Now
03
The slide uses a standard 'Mission/Solution/Strength' structure to establish company identity.inspire_vision
Open slide detailLoop · Why Now
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The slide uses a circular flywheel-style diagram to illustrate the quantum ecosystem.present_framework
Open slide detailLoop · Golden Circle
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present_solution
Open slide detailBeat · SolutionLoop · Golden Circle
06
The model follows a structured process: exploration, algorithm development, and hardware implementation, with a 6-month phase duration.present_solution
07
The slide features a stylized graphic of connected nodes, likely representing quantum computing qubits or a network.transition
08
Includes technical diagrams of optical tweezers, atom arrays in 1D/2D/3D, and a connectivity performance chart.present_solution
09
The slide uses a layered stack diagram to represent the full-stack nature of the product.present_solution
10
The slide features a stylized graphic of connected nodes, likely representing quantum computing qubits or network structures.transition
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present_solution
Open slide detailBeat · Market Size
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transition
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The slide illustrates the mapping of a physical problem to a graph problem (MIS) which is then implemented using atomic positions.present_solution
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The slide presents empirical results from a quantum algorithm emulation, highlighting both successful convergence and identified edge cases (resistant graphs).analyze_data
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summarize
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state_next_steps
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The slide contrasts continuous Hamiltonian-based control with discrete gate-based digital control, citing a specific numerical study on 10x10 2D Hubbard model spresent_solution
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The slide references a specific academic paper (arXiv:1910.10442) regarding quantum computing applications for scheduling.present_framework