# ARM Cortex-A15

> ARM Cortex-A15 MPCore

**Wikidata**: [Q2819371](https://www.wikidata.org/wiki/Q2819371)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/ARM_Cortex-A15)  
**Source**: https://4ort.xyz/entity/arm-cortex-a15

## Summary
ARM Cortex-A15 is a high-performance 32-bit microprocessor core designed by ARM Holdings that belongs to the Cortex-A series optimized for performance-intensive applications. It is marketed as the Cortex-A15 MPCore and succeeded by the ARM Cortex-A17.

## Key Facts
- Classified as a product model and subclass of ARM Cortex-A high performance, semiconductor intellectual property core, and microprocessor
- Official product page archived at http://www.arm.com/products/processors/cortex-a/cortex-a15.php
- Freebase identifier: /m/0fq1wdk
- Wikipedia articles exist in 9 languages: Azerbaijani, English, Persian, French, Hungarian, Korean, Norwegian, Russian, Turkish, and Ukrainian
- Succeeded by the ARM Cortex-A17, another 32-bit processor core
- Related to the Nvidia Shield Portable handheld game console
- Sitelink count across Wikimedia projects: 11

## FAQs
### Q: What type of processor is the ARM Cortex-A15?
A: The ARM Cortex-A15 is a 32-bit high-performance microprocessor core that belongs to ARM's Cortex-A family, designed for performance-optimized applications.

### Q: What succeeded the ARM Cortex-A15?
A: The ARM Cortex-A17 succeeded the Cortex-A15 as the next 32-bit processor core in ARM's product lineup.

### Q: Is the ARM Cortex-A15 still used in consumer devices?
A: While the source material doesn't specify current usage, the Cortex-A15 was notably used in devices like the Nvidia Shield Portable handheld gaming console.

## Why It Matters
The ARM Cortex-A15 represents a significant milestone in ARM's processor evolution, bridging the gap between earlier Cortex-A designs and the Cortex-A17. As part of ARM's high-performance Cortex-A series, the Cortex-A15 MPCore architecture provided the foundation for mobile and embedded systems requiring substantial processing power while maintaining ARM's power-efficient design philosophy. Its presence in devices like the Nvidia Shield Portable demonstrates its capability to handle demanding applications such as mobile gaming and multimedia processing. The transition from Cortex-A15 to Cortex-A17 also marks an important evolution in ARM's 32-bit processor roadmap, showing the company's commitment to iterative improvements in performance and efficiency before the industry-wide shift to 64-bit architectures.

## Notable For
- Part of ARM's high-performance Cortex-A series, distinguishing it from efficiency-focused Cortex-R and Cortex-M series
- Multi-language Wikipedia coverage across 9 languages, indicating global relevance and adoption
- Used in gaming applications, as evidenced by its relationship with the Nvidia Shield Portable
- Represents a specific generation in ARM's 32-bit processor evolution before the move to 64-bit
- Marketed under the "MPCore" branding, emphasizing its multi-core processing capabilities

## Body
### Architecture and Classification
The ARM Cortex-A15 is fundamentally classified as a microprocessor - a computer processor contained on an integrated-circuit chip. It belongs to ARM's Cortex-A series, which is specifically optimized for high-performance applications rather than the real-time (Cortex-R) or microcontroller (Cortex-M) applications.

### Product Positioning
Within ARM's product hierarchy, the Cortex-A15 occupies a specific position as a product model that subclasses three categories: ARM Cortex-A high performance processors, semiconductor intellectual property cores, and microprocessors. This positioning indicates it's both a complete processor design and licensable IP that semiconductor companies can integrate into their own chips.

### Successor Relationship
The Cortex-A15's relationship to the Cortex-A17 is notable as it represents ARM's iterative approach to processor development. The Cortex-A17, also a 32-bit processor core, succeeded the A15 in ARM's product lineup, suggesting improvements in performance, efficiency, or features while maintaining the same fundamental 32-bit architecture.

### Market Applications
While specific technical specifications aren't provided in the source material, the relationship with the Nvidia Shield Portable indicates the Cortex-A15 found applications in gaming and multimedia devices. This suggests sufficient processing power for graphics-intensive mobile applications while maintaining the power efficiency required for battery-operated devices.

## Schema Markup
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  "@type": "Thing",
  "name": "ARM Cortex-A15",
  "description": "ARM Cortex-A15 MPCore is a high-performance 32-bit microprocessor core",
  "url": "http://www.arm.com/products/processors/cortex-a/cortex-a15.php",
  "sameAs": ["https://www.wikidata.org/wiki/Q15241312", "https://en.wikipedia.org/wiki/ARM_Cortex-A15"]
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## References

1. Freebase Data Dumps. 2013