技能 编程开发 系统架构设计与面试准备

系统架构设计与面试准备

v20260618
system-design-interview
这是一个用于设计大规模分布式系统的全流程框架。它指导用户系统性地构建架构方案,从明确功能和非功能需求、进行容量估算,到深入设计核心组件、数据流,并分析关键的技术取舍和权衡。
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概览

System Design Interview Skill

Structures a complete, interview-grade system design response — covering clarifying questions, requirements, capacity estimates, architecture, component design, and trade-offs. Works equally well for real architecture sessions.

Required Inputs

Ask for these if not provided:

  • The system to design (e.g. "design a URL shortener", "design a notification service", "design Twitter's feed")
  • Scope (interview prep / real architecture decision / practice run)
  • Scale target (rough numbers: DAU, requests/sec, data volume — or "assume typical web scale")
  • Constraints or priorities (e.g. prioritise availability over consistency, minimise cost, low-latency reads)
  • Time available (interview context only: 30 / 45 / 60 minutes — skip for real architecture sessions)
  • Emphasis (optional — any area to go deeper on, e.g. "focus on the DB design" or "spend more time on scaling")

Output Format

1. Clarifying Questions

Before designing, list 4–6 questions that would change the design. Examples:

  • Read-heavy or write-heavy? (affects caching and DB choice)
  • Global or single-region? (affects latency requirements)
  • Strong or eventual consistency? (affects storage and replication)
  • Acceptable latency targets? (p50 / p99)
  • Any existing infrastructure constraints?

Then proceed with stated assumptions if answering an interview question.

2. Functional Requirements

Core features (must have):

  • [Feature 1]
  • [Feature 2]
  • [Feature 3]

Out of scope (for this design):

  • [What's deliberately excluded and why]

3. Non-Functional Requirements

Requirement Target
Availability [e.g. 99.9% / 99.99%]
Latency [e.g. p95 < 100ms for reads]
Throughput [e.g. 10k writes/sec peak]
Consistency [Strong / Eventual]
Durability [e.g. 99.999% — no data loss]

4. Capacity Estimation

Traffic:

  • DAU: [X]
  • Reads/sec: [X] (peak: [X])
  • Writes/sec: [X] (peak: [X])

Storage:

  • Per record size: [X bytes]
  • Records per day: [X]
  • 5-year storage: [X GB/TB]

Bandwidth:

  • Inbound: [X MB/s]
  • Outbound: [X MB/s]

5. High-Level Architecture

Draw an ASCII diagram specific to this system. Do not default to the client→CDN→LB→API→Cache→DB template unless it genuinely applies. Label each component with the specific technology chosen (e.g. "Kafka" not "Message Queue", "PostgreSQL" not "DB"). Describe each component in 1–2 sentences explaining its role and why that technology was chosen.

6. Component Deep-Dive

Pick the 2–3 most critical/interesting components and go deep:

[Component 1: e.g. Database Layer]

  • Choice: [Technology and why — e.g. PostgreSQL for ACID guarantees, Cassandra for write throughput]
  • Schema design (high-level): [Key tables/collections and their structure]
  • Indexing strategy: [What gets indexed and why]
  • Replication: [Primary-replica / Multi-primary — and why]

[Component 2: e.g. Caching Strategy]

  • Cache type: [Redis / Memcached — and why]
  • What gets cached: [Hot data — e.g. user sessions, frequent reads]
  • Cache invalidation: [TTL / Write-through / Write-behind — trade-offs]
  • Cache hit rate target: [e.g. 95%]

[Component 3: e.g. API Design]

  • Key endpoints: [List the 3–5 most important API calls]
  • Authentication: [JWT / OAuth / API keys]
  • Rate limiting: [Where and at what rate]

7. Data Flow

Walk through the two most critical paths end-to-end:

Write path: [Step 1 → Step 2 → Step 3...] Read path: [Step 1 → Step 2 → Step 3...]

8. Scaling Bottlenecks and Mitigations

Bottleneck Mitigation
[e.g. DB write throughput] [e.g. sharding by user_id, write batching]
[e.g. Hot-key cache misses] [e.g. local in-process cache, probabilistic early expiry]
[e.g. Single region latency] [e.g. multi-region deployment, GeoDNS routing]

9. Trade-offs and Alternatives

Be explicit about what was chosen and what was sacrificed:

Decision Why Trade-off
[e.g. Eventual consistency] [Higher availability, lower latency] [Stale reads possible]
[e.g. SQL over NoSQL] [Complex queries, ACID transactions] [Harder to shard horizontally]
[e.g. Async processing via queue] [Decoupled, more resilient] [Eventual delivery, harder to debug]

10. Follow-up Considerations

Things to tackle in production but out of scope for this design session:

  • Monitoring and alerting (what metrics matter)
  • Disaster recovery and backup strategy
  • Security (auth, encryption at rest/transit, rate limiting)
  • Cost optimisation at scale
  • Gradual rollout and feature flagging

Quality Checks

  • Clarifying questions are design-changing (not generic filler)
  • Capacity estimates show the arithmetic: DAU → requests/day → requests/sec → storage per record → total storage, so the numbers can be sanity-checked
  • Every row in the Trade-offs table has a non-empty Trade-off column (no rows where the trade-off is blank or says "none")
  • At least 2 component deep-dives with technology choices justified
  • Trade-offs section is honest (not just benefits of chosen approach)
  • Data flow is described end-to-end for the critical path

Anti-Patterns

  • Do not jump to solutions before clarifying requirements — always establish functional and non-functional requirements first
  • Do not present a design without discussing trade-offs — every architecture decision has costs and benefits that must be acknowledged
  • Do not use vague capacity estimates — show the actual calculation (QPS, storage bytes, bandwidth) not just "this handles scale"
  • Do not design for unlimited scale by default — match the design to the requirements stated
  • Do not skip the data model — a system design without entity definitions and data flow is incomplete

Usage Examples

  • "Help me answer a system design interview: [question]"
  • "Design [system] for a system design interview"
  • "How would I architect [system] at scale?"
  • "I have a system design interview — the question is [X]"
  • "Design a [URL shortener / chat system / notification service / feed]"
信息
Category 编程开发
Name system-design-interview
版本 v20260618
大小 6.47KB
更新时间 2026-06-19
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