{
  "docId": "019dd923-5de0-76bd-a16a-38c8511b47be",
  "docSlug": "80794bd2ead59890",
  "documentTitle": "Quantum Technology Monitor",
  "authorId": "McKinsey",
  "authorName": "McKinsey",
  "documentKindSlug": "consulting-deck",
  "documentKindLabel": "Consulting deck",
  "sourceTypeSlug": "strategy_consulting",
  "sourceTypeLabel": "Strategy consulting",
  "presentationDate": null,
  "orientation": "landscape",
  "aspectRatio": 1.778,
  "pageNumber": 80,
  "pageCount": 103,
  "prevPage": 79,
  "nextPage": 81,
  "slideType": "comparison_table",
  "function": "compare_options",
  "density": "balanced",
  "nDataPoints": 0,
  "notes": "The slide uses a structured table format to categorize benchmarks and evaluate their utility for real-world application performance.",
  "elementsJson": [
    "headline_text",
    "comparison_table",
    "callout_box"
  ],
  "metadataConfidence": 1,
  "imagePath": null,
  "slideHref": "/slides/019dd923-5de0-76bd-a16a-38c8511b47be/80",
  "deckHref": "/decks/019dd923-5de0-76bd-a16a-38c8511b47be",
  "deckJsonHref": "/decks/019dd923-5de0-76bd-a16a-38c8511b47be.json",
  "deckAnchorHref": "/decks/019dd923-5de0-76bd-a16a-38c8511b47be#slide-80",
  "components": [
    {
      "bbox": {
        "h": 0.06,
        "w": 0.9,
        "x": 0.05,
        "y": 0.87
      },
      "kind": "callout",
      "text": "Numerous benchmarks have been defined and some are very vendor specific, requiring independent third-party benchmarking",
      "attrs": null,
      "subkind": "primary",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "a65b80e6-ea53-4e0c-b8b4-6c3533a2b83a",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.04,
        "w": 0.9,
        "x": 0.05,
        "y": 0.95
      },
      "kind": "source-note",
      "text": "Source: A. W. Cross, L. S. Bishop et al., “Validating quantum computers using randomized model circuits,” Physical Review A, vol. 100; A. Wack, H. Paik et al, “Quality, speed, and scale: Three key attributes to measure the performance of near-term quantum computers,” 2021; A. J. McCaskey, Z. P. Parks et al., “Quantum chemistry as a benchmark for near-term quantum computers,” 2019",
      "attrs": null,
      "subkind": null,
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "ea53354c-246d-46d6-84a6-d303eb622d1f",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.65,
        "w": 0.9,
        "x": 0.05,
        "y": 0.2
      },
      "kind": "table",
      "text": "System level, Algorithm level, Application level benchmarks with examples and evaluation pros/cons.",
      "attrs": null,
      "subkind": "data",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "4e63ea26-f6f8-4d57-a166-d791abbd487b",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.1,
        "w": 0.9,
        "x": 0.05,
        "y": 0.08
      },
      "kind": "title",
      "text": "The current focus of benchmarking on hardware limits industry insight into real-world application performance.",
      "attrs": null,
      "subkind": "headline",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "8cfa8822-4ef6-4997-89d3-c6b1b03242be",
      "frameworkName": null,
      "frameworkSlug": null
    }
  ],
  "metrics": [],
  "tools": [
    {
      "name": "Comparison frame",
      "slug": "comparison-frame",
      "agent": null,
      "layer": "slide",
      "matchId": "8610daba-fc37-435c-a549-6b4bf03844ca",
      "evidence": "The slide uses a comparison table to contrast current benchmarking focus on hardware with the need for industry insight into real-world application performance.",
      "confidence": 0.8
    }
  ],
  "frameworks": [],
  "arcBeats": [],
  "loops": [],
  "imagePathAlt": null,
  "thumbSrc": null,
  "thumbSrcAlt": null,
  "locked": true
}