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1. Intel® MAX® 10 External Memory Interface Overview
2. Intel® MAX® 10 External Memory Interface Architecture and Features
3. Intel® MAX® 10 External Memory Interface Design Considerations
4. Intel® MAX® 10 External Memory Interface Implementation Guides
5. UniPHY IP References for Intel® MAX® 10 Devices
6. Intel® MAX® 10 External Memory Interface User Guide Archives
7. Document Revision History for the Intel® MAX® 10 External Memory Interface User Guide
2.1. Intel® MAX® 10 I/O Banks for External Memory Interface
2.2. Intel® MAX® 10 DQ/DQS Groups
2.3. Intel® MAX® 10 External Memory Interfaces Maximum Width
2.4. Intel® MAX® 10 Memory Controller
2.5. Intel® MAX® 10 External Memory Read Datapath
2.6. Intel® MAX® 10 External Memory Write Datapath
2.7. Intel® MAX® 10 Address/Command Path
2.8. Intel® MAX® 10 PHY Clock (PHYCLK) Network
2.9. Phase Detector for VT Tracking
2.10. On-Chip Termination
2.11. Phase-Locked Loop
2.12. Intel® MAX® 10 Low Power Feature
3.1. Intel® MAX® 10 DDR2 and DDR3 Design Considerations
3.2. LPDDR2 Design Considerations
3.3. Guidelines: Intel® MAX® 10 DDR3, DDR2, and LPDDR2 External Memory Interface I/O Limitation
3.4. Guidelines: Intel® MAX® 10 Board Design Requirement for DDR2, DDR3, and LPDDR2
3.5. Guidelines: Reading the Intel® MAX® 10 Pin-Out Files
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4.2.1. Supported LPDDR2 Topology
For LPDDR2, the external memory interface IP for Intel® MAX® 10 devices uses one capture clock and one tracking clock with one discrete device.
Figure 11. Supported Topology for LPDDR2 Memory InterfacesThis figure shows the supported LPDDR2 topology. Only one discrete LPDDR2 device is supported with a 16 bit maximum interface width. The memory interface IP in Intel® MAX® 10 devices generates LPDDR2 IPs targeted for this configuration only.