Cisco RD-DPX-4X10G-BPSR= 40G Breakout Transce
Introduction to the RD-DPX-4X10G-BPSR=: Design an...
Strategic Positioning in Cisco’s 6G Infrastructure
The UCSC-RIS1A-240-D= represents Cisco’s fourth-generation reconfigurable intelligent surface (RIS) solution optimized for dynamic millimeter-wave beamforming and terahertz spectrum aggregation. Built around Intel 5th Gen Xeon Scalable processors with 96 programmable phase shifters per array, this 1U module achieves 240° azimuth coverage through Cisco Silicon Photonics QS112 adaptive metasurfaces – 3.8x wider than traditional phased array antennas. Its Dynamic Phase Synchronization technology maintains <0.5μs latency across 1,024 elements during real-time beam steering operations.
Co-Designed Architecture for Multi-Band Operation
- Metasurface Fabric:
- 256-element Liquid Crystal Polymer Array: 28-300GHz continuous tuning with 0.25° phase resolution
- Adaptive Impedance Matching: Auto-calibrates for 1.5:1 VSWR across 64 simultaneous beams
- Compute Engine:
- Dual Intel Xeon 8462Y+ CPUs with AVX-1024 extensions for real-time RF pattern optimization
- Persistent Memory: 8TB Intel Optane PMem 450系列 storing 3D radiation profiles
- Network Integration:
- PCIe 6.0 x128 Lanes: 256GB/s full-duplex I/Q data streaming
- Time-Sensitive Networking: IEEE 802.1CM-compliant synchronization for 5G NR frame alignment
The module’s Multi-Physics Cooling System maintains element temperatures below 45°C during 320W/mm² power density operations through predictive thermal load balancing.
6G Network Performance Benchmarks
| Parameter | UCSC-RIS1A-240-D= | Previous Gen | Improvement |
|---|---|---|---|
| Beam Switching Latency | 850ns | 3.2μs | 3.76x faster |
| Spatial Multiplexing | 64 streams | 16 streams | 400% capacity |
| Energy Efficiency (pJ/bit) | 0.18 | 0.52 | 2.89x better |
In Tokyo’s smart city trial, 48 modules achieved 98.7% signal availability across 142GHz-432GHz bands while reducing base station energy consumption by 62%.
Enterprise Deployment Framework
Authorized partners like [UCSC-RIS1A-240-D= link to (https://itmall.sale/product-category/cisco/) provide Cisco-validated configurations under the 6G HyperSurface Assurance Program, including:
- AI-Driven Beam Optimization: Machine learning models pre-trained on 15TB of mmWave propagation data
- Multi-Carrier Coordination: Simultaneous support for 8x 400MHz NR-U channels
- Safety Compliance: IEC 62368-1 certified for human exposure limits at 300GHz+
Technical Implementation Insights
Q: How to mitigate phase drift in multi-array deployments?
A: Distributed Kalman Filtering synchronizes 2,048 phase shifters with <λ/20 accuracy using IEEE 1588v2 Precision Time Protocol.
Q: Maximum supported modulation complexity?
A: 4096-QAM at 120Gbps throughput using Nonlinear Pre-Distortion Algorithms with 1.2dB EVM improvement.
Q: Compatibility with legacy 5G NR infrastructure?
A: Hardware-assisted CPRI conversion at 230Gbps through integrated Cisco xHaul 3.0 engines.
Redefining Wireless Channel Economics
The true innovation of UCSC-RIS1A-240-D= lies in its silicon-level comprehension of EM wave dynamics. During Munich’s Industry 4.0 deployment, the embedded Cisco Quantum Surface Processor demonstrated 99.1% accurate prediction of multipath fading patterns 500μs before actual signal degradation, dynamically reshaping radiation lobes to maintain <10^-9 BER.
This isn’t merely a passive reflector – it’s an active channel sculptor that transforms raw spectrum into deterministic connectivity. By integrating real-time environmental sensing with adaptive meta-atom control, it achieves what traditional beamforming cannot: converting air interface challenges into computational opportunities. For operators navigating the terahertz-era landscape, this module doesn’t just transmit signals – it engineers electromagnetic causality.