D-Wave · conference-presentation
D-Wave | Investor Day Presentation Deck | 133 slides
132 pages · 5 arc beats · 2 loops
D-Wave | Investor Day Presentation Deck | 133 slides
D-Wave · 2024-01 arc beats above · slides in the middle · loops below · scroll → 2 LOOPS
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Deck intelligence map
5 coverage by narrative range · generated from this deck JSON
Narrative range 25 total
Metadata
Components
Metrics
Tools
Frameworks
Beats
Loops
Situation & Context 5 slides 100% 5/5 slides 100% 5/5 slides · 13 hits — 0/5 slides
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20% 1/5 slides 100% 5/5 slides — 0/5 slides
Problem & Complication 5 slides 100% 5/5 slides 100% 5/5 slides · 22 hits — 0/5 slides
60% 3/5 slides · 4 hits 60% 3/5 slides 100% 5/5 slides — 0/5 slides
Solution & Approach 5 slides 100% 5/5 slides 100% 5/5 slides · 26 hits — 0/5 slides
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20% 1/5 slides 100% 5/5 slides 100% 5/5 slides Evidence & Proof 5 slides 100% 5/5 slides 100% 5/5 slides · 18 hits — 0/5 slides
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100% 5/5 slides 100% 5/5 slides Impact & Next Steps 5 slides 100% 5/5 slides 100% 5/5 slides · 21 hits — 0/5 slides
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20% 1/5 slides 100% 5/5 slides — 0/5 slides
Slide inventory
132 every slide · same image gating as the playbook
06
Uses a 'From-To' framing to illustrate strategic evolution.frame_situation
Open slide detailBeat · Problem & Complication
07
The slide uses a TRL (Technology Readiness Level) framework to position quantum annealers as market-ready compared to other quantum technologies.present_framework
Open slide detailBeat · Problem & Complication
08
Includes a testimonial from the CEO of Interpublic Group.summarize
Open slide detailBeat · Problem & Complication
09
The chart uses a stacked area visualization to represent growing opportunity over time.size_opportunity
Open slide detailBeat · Problem & Complication
11
The slide uses a split-screen layout to contrast past achievements (Nature paper) with current research findings (computational performance charts).summarize
12
Uses a chevron-style visual to imply forward momentum from past achievements to future goals.plan_implementation
13
The chart shows a comparison between 'Next-gen Prototype' and 'CQM solver' for the 'Travelling Salesperson Problem'.summarize
15
The slide uses a dark theme with orange highlights for key metrics. It includes four distinct data points in circular callouts and a list of supporting statistisize_opportunity
19
The slide uses a directional arrow graphic to show these factors feeding into the D-Wave brand.summarize
24
This is a logo grid slide used to establish the scope of the parent company.other
Open slide detailBeat · Impact & Next Steps
25
The slide mentions 'Retail Labour Scheduling' as a specific use case.establish_context
Open slide detailBeat · Impact & Next Steps
27
The slide outlines a timeline of engagement and specific project statuses.illustrate_case
28
The slide uses a specific customer case study (Pattison Food Group) to frame a problem solvable by D-Wave's quantum optimization.frame_problem
29
The diagram shows a workflow involving labour agreements, schedulers, mathematical optimization, and code tuning.present_framework
30
The slide maps business rules for workforce management to mathematical optimization equations.frame_problem
31
The slide uses a process flow diagram to illustrate the integration of various tools (Kedro, Python, Informatica, MLflow, etc.) within the D-Wave QEDA pipeline.present_framework
32
The table displays employee shift assignments (time slots and IDs) across a week, with columns for seniority and shift requirements.analyze_data
33
The slide displays a complex scheduling matrix for the Victoria location, likely used to demonstrate optimization software capabilities.other
34
The table displays shift times and IDs for specific dates, with columns for seniority score, max, scheduled, and min requirements.analyze_data
35
The slide displays a complex scheduling matrix with color-coded shift times and location IDs, likely used to demonstrate workforce optimization capabilities.analyze_data
37
The slide combines a project timeline with a summary of quantitative and qualitative benefits.plan_implementation
38
The slide illustrates a manual, labor-intensive scheduling workflow involving multiple constraints and ongoing maintenance.frame_problem
39
The slide uses a central graphic of a manual scheduling board to represent the 'current state' problem.diagnose_problem
40
The slide contrasts the 'Build Schedule' phase with the 'Maintenance/Edits' phase, showing time requirements for each.present_solution
41
The slide uses a timeline framework to correlate project milestones with quantitative labor savings.plan_implementation
48
The slide describes a technical application of quantum annealing for radar scheduling optimization.present_solution
49
The slide uses a timeline diagram to visualize the concept of 'Dwells' and 'Resource Periods' (RP) in radar operations.present_framework
50
The diagram shows a temporal progression (t0 to tn) of satellite tracking tasks being coordinated across multiple radar stations.frame_problem
51
The slide uses a contrast between a simple 1D scheduling chart and a complex 3D global visualization to frame the problem of combinatorial optimization.frame_problem
52
The chart shows the D-Wave QPU (thick black line) achieving lower energy states compared to traditional solvers like GRB_MIP and various heuristics.compare_peers
53
The slide uses a circular image of a highway interchange to represent 'momentum'.introduce_nominees
55
The slide uses a repeating 'WE DO' structure to emphasize agency capabilities.summarize
56
The slide uses a horizontal layout to present service offerings with icons and brief descriptions.summarize
57
The slide uses a bubble-chart style layout to represent the relative prominence or emergence of technologies over time, with a chronological axis at the bottom.establish_context
58
The diagram uses a hub-and-spoke/network visualization to represent non-linear customer journeys.present_framework
59
The slide uses a table to define service offerings and provide proof points for scale.analyze_data
60
The slide uses a high-contrast black background with red text for the title, typical of a corporate announcement or partnership reveal.establish_context
62
Includes a definition of NP complexity and practical applications of TSP.frame_problem
63
The slide uses a structured list format to define geographic, store-specific, and logistical constraints for a routing or optimization problem.frame_problem
64
The slide uses a humorous callout bubble to contrast the complexity of the math with a dismissive tone.present_framework
66
This slide outlines a classic Traveling Salesperson Problem (TSP) or Vehicle Routing Problem (VRP) approach.present_framework
68
The slide uses a series of maps to demonstrate a data filtering and optimization process.analyze_data
69
The map shows a complex routing path across the US and Canada. The table provides quantitative results of the optimization.present_solution
72
The slide uses a series of grey boxes to categorize the components of the tech stack required for modern marketing activations.establish_context
73
The slide uses a Venn-like or containment diagram to illustrate the relationship between AR, MR, and VR within the broader context of XR.present_framework
74
The diagram uses Hall's Proxemics theory as a framework for XR analytics.present_framework
75
The diagram uses concentric circles to represent layers of experience, labeled as Physical Event, Extended Reality, and Social Computing Artifacts.present_solution
76
The slide features a circular portrait/background image and the Vinci Energies logo.introduce_nominees
77
The slide uses a background image of a modern atrium/staircase with a semi-transparent white overlay for text readability.front_matter
78
Slide serves as a credit or team acknowledgement page for a specific project.introduce_nominees
79
The slide uses a value-chain style footer (Finance -> Design -> Build -> Operate -> Renovate) to illustrate the group's lifecycle capabilities.establish_context
80
The slide uses a visual grid to categorize the four business units under the parent brand.establish_context
81
The slide uses a circular process diagram to represent the building life-cycle.present_framework
84
The diagram uses a funnel metaphor to represent the synthesis of complex problems into specific project outcomes.diagnose_problem
85
The slide uses abstract, artistic imagery to represent technical engineering software modules.present_solution
86
The slide uses a grid layout to present four distinct AI solution modules: SprinkIA, SSIA, InfrAI, ElecIA, and CVCIA.present_solution
88
The slide uses a network optimization problem as a use case for D-Wave's quantum computing capabilities.frame_problem
89
The slide defines a mathematical model for cost optimization in ducting, using alpha and beta as weighting parameters.present_framework
90
The slide shows a technical schematic or floor plan with colored lines indicating paths or connections, likely related to building infrastructure or logistics.illustrate_case
91
The diagram appears to be a technical schematic or floor plan layout with various colored lines representing different paths or connections.illustrate_case
92
The slide compares two different optimization models across intuitive and cost-based metrics.compare_peers
98
The slide uses a chevron-based process flow to show transition from POC to production.illustrate_case
100
The slide uses a split-box layout to contrast two business growth motions.present_framework
104
The central diagram uses a 2x2-like circular layout to categorize partner types.other
106
The slide uses a central circular graphic containing imagery of molecular structures, digital data, and the US Capitol to symbolize the intersection of science,present_solution
109
The slide showcases three distinct marketing assets: a strategy guide, an e-book, and a technical case study/application note.present_solution
110
The slide uses a split-layout: left side is a branded visual for 'Manufacturing Solutions', right side outlines the value proposition.present_solution
113
The slide uses a layered area chart to represent market growth over time, aligned with product releases and specific industry use cases.size_opportunity
114
The slide uses a timeline diagram to show progress milestones.plan_implementation
115
The scatter plot shows Advantage2 performance on the Y-axis vs Advantage on the X-axis, with a diagonal line indicating parity.analyze_data
116
The chart shows residual energy vs rescaled anneal time, highlighting that the mitigated curve achieves lower energy states.present_solution
117
The chart shows residual energy per spin decreasing faster for QA compared to SA and SQA, indicating superior optimization performance.analyze_data
118
The slide uses log-log plots to show the scaling gap between classical supercomputing (Frontier/Summit) and quantum annealing.analyze_data
119
The slide uses a grid-like layout to present technical components.present_framework
120
The slide uses a combination of technical imagery (micrograph and schematic) to support the progress report.summarize