{
  "slug": "vicor-corporation",
  "name": "Vicor Corporation",
  "description": "Vicor Corporation designs, develops, manufactures, and markets modular power components and complete power systems. Their products are known for high density and efficiency, catering to various industries including enterprise, high-performance computing, communications, industrial, and automotive.",
  "url": "https://optimly.ai/brand/vicor-corporation",
  "websiteUrl": null,
  "logoUrl": "https://logo.clearbit.com/https://vicor-corporation.com",
  "baiScore": 24,
  "bai_tier_status": "active",
  "bai_score_status": "active",
  "archetype": "Phantom",
  "archetype_status": "active",
  "category": "Electronics Manufacturing",
  "categorySlug": null,
  "keyFacts": [],
  "aiReadiness": [],
  "competitors": [],
  "competitorsProse": null,
  "inboundCompetitors": [],
  "aiAlternatives": [],
  "parentBrand": null,
  "subBrands": [],
  "updatedAt": "2026-07-05T00:33:06.083Z",
  "verifiedVitals": {
    "website": "vicorpower.com",
    "founded": "1981",
    "headquarters": "Andover, Massachusetts, USA",
    "pricing_model": "B2B, component-based, custom solutions",
    "core_products": "DC-DC converters, AC-DC converters, power management ICs, modular power components, power systems",
    "key_differentiator": "High power density, high efficiency, modularity, advanced power conversion topologies (e.g., Factorized Power Architecture)",
    "target_markets": "Enterprise (data centers), high-performance computing, telecommunications, industrial, automotive, aerospace, defense",
    "employee_count": "1,000-5,000",
    "funding_stage": "Publicly Traded",
    "subcategory": "Power Conversion"
  },
  "intentTags": {
    "problemIntents": [
      "high power consumption",
      "space constraints in electronics",
      "thermal management challenges",
      "reliability concerns in power systems"
    ],
    "solutionIntents": [
      "efficient power conversion",
      "compact power modules",
      "high-density power solutions",
      "reliable power supply design"
    ],
    "evaluationIntents": [
      "power converter comparison",
      "efficiency metrics for power supplies",
      "cost-benefit analysis of modular power",
      "vendor reliability in power electronics"
    ]
  },
  "timestamp": 1783766996352
}