XP106H0015T3P0116T300 Phison Pascari X100p 15.36TB U.2 Single Port PCIE SSD

Overview of Phison XP106H0015T3P0116T300 15.36TB SSD

The PHISON XP106H0015T3P0116T300 Pascari X100p 15.36TB U.2 SSD is engineered for enterprise-grade workloads that demand high throughput, consistent latency, and long-term reliability. Built on a PCI Express Gen4 x4 NVMe architecture, this data center solid state drive delivers exceptional performance for mission-critical applications such as virtualization, cloud computing, databases, analytics, and high-performance storage infrastructures.

General Information

• Manufacturer: Phison
• Part Number: XP106H0015T3P0116T300
• Product Type: Solid State Drive

Technical Specifications

• Capacity : 15.36TB
• Form Factor : U.2
• Interface : Single Port
• Security : Non-opal
• Drive Writes Per Day : 1 DWPD
• PCI Express Base Specification 4.0 compliant

PCIe and NVMe Enhancements

• PCIe Gen4 x4 for high-speed data transmission
• Single-port architecture for simplified deployment
• PCIe Advanced Error Reporting (AER) for enhanced reliability
• Optimized NVMe command processing for enterprise workloads

Sequential and Random Performance

Maximum Throughput

• Sequential Read Speed: up to 7000 MB/s
• Sequential Write Speed: up to 6800 MB/s
• Random Read Performance: up to 1,600K IOPS
• Random Write Performance: up to 180K IOPS

Sustained Latency Metrics

• 100µs read / 15µs write at QD1, single worker
• 110µs read / 300µs write at QD32, single worker
• 450µs read / 3800µs write at QD64, eight workers

Optimized Power Consumption

• Random read/write power (typical): 16.2W / 19.6W
• Sequential read/write power (typical): 12.3W / 20.1W
• Idle power consumption (typical): 7.32W
• Inrush current: 1.5A

Enterprise Endurance Ratings

• Drive Writes Per Day (DWPD): 1 DWPD
• Total Bytes Written (TBW): 28,032 TB
• Mean Time Between Failures (MTBF): 2,500,000 hours
• Uncorrectable Bit Error Rate: less than 1 sector per 10¹⁸ bits read

Form Factor and Build

• U.2 form factor dimensions: 100mm (L) × 70mm (W) × 15mm (H)
• Optimized for enterprise server bays

The Phison Pascari X100p 15.36TB U.2 Single Port PCIE SSD

Enterprise NVMe solid state drives designed for data center and mission-critical workloads represent a specialized storage category focused on extreme endurance, predictable latency, and sustained throughput under continuous operation. Products within this segment are engineered to support modern infrastructures such as hyperscale cloud platforms, virtualization clusters, high-performance computing environments, and data-intensive analytics systems. These drives emphasize reliability, long operational life, advanced error correction, and optimized firmware logic that ensures consistent performance even under heavy, mixed read/write workloads. The Phison Pascari X100p family belongs to this advanced enterprise SSD category, targeting organizations that require uncompromising data integrity and high bandwidth utilization across PCI Express Gen4 interfaces.

PCIe Gen4 NVMe SSD

PCI Express Gen4 x4 connectivity defines a significant leap forward in enterprise storage bandwidth, doubling the per-lane throughput of Gen3 and enabling NVMe SSDs to fully exploit modern CPU and platform capabilities. Within this category, Gen4 NVMe SSDs are built to sustain high sequential transfer rates and exceptional random I/O performance without throttling during prolonged operation. This architectural advantage is especially relevant for applications such as real-time analytics, AI model training pipelines, large-scale databases, and transactional systems that depend on rapid data access. Enterprise Gen4 SSDs integrate optimized controllers, high-speed NAND flash, and advanced firmware scheduling to minimize latency while maximizing parallelism across multiple queues.

NVMe Protocol Optimization

The NVMe protocol was designed specifically for non-volatile memory, removing legacy bottlenecks associated with older storage interfaces. In enterprise NVMe SSD categories, the protocol is leveraged to support thousands of queues and deep command depths, enabling efficient multi-threaded access in server environments. This capability allows storage devices to scale seamlessly with multi-core processors and high-density virtualization platforms. Advanced queue management and command prioritization ensure that latency-sensitive workloads receive consistent response times even when background tasks or maintenance operations are active.

U.2 Form Factor and Single Port Design

The U.2 form factor remains a cornerstone of enterprise storage deployments due to its balance of performance, serviceability, and thermal efficiency. Drives in this category are designed for hot-swappable server bays, allowing maintenance and upgrades without system downtime. The single port U.2 design focuses on streamlined connectivity and optimized signal integrity, making it suitable for a wide range of enterprise server and storage chassis. This approach simplifies deployment while maintaining compatibility with established data center infrastructures.

Thermal and Mechanical Stability

Enterprise U.2 SSDs are engineered to operate reliably in dense server environments where airflow and thermal conditions can vary significantly. Robust enclosures, efficient heat dissipation pathways, and firmware-level thermal monitoring work together to prevent performance degradation due to overheating. Mechanical durability is equally important, as drives must withstand continuous vibration and frequent insertion cycles over their operational lifespan. This category emphasizes stringent validation and quality control to ensure consistent behavior under real-world data center conditions.

High-Capacity 15.36TB Storage

High-capacity enterprise SSDs in the 15.36TB range address the growing demand for dense storage solutions that reduce rack space, power consumption, and overall total cost of ownership. By consolidating large datasets into fewer physical devices, organizations can simplify storage management while improving performance and reliability. This capacity tier is particularly valuable for data lakes, content repositories, log aggregation systems, and large-scale virtualization environments where both capacity and speed are critical.

Advanced NAND Flash 

Drives in this category employ enterprise-grade NAND flash optimized for endurance and sustained write performance. Sophisticated wear-leveling algorithms distribute writes evenly across memory cells, extending the usable life of the drive even under intensive workloads. The combination of high-capacity NAND packages and intelligent controller design enables consistent throughput while maintaining low error rates and predictable latency profiles.

Latency Management and QoS

Quality of Service is a critical consideration in enterprise storage categories. Advanced controllers implement latency management techniques that prioritize time-sensitive operations and prevent performance outliers. This ensures that even during peak utilization, response times remain within acceptable ranges. Such predictability is essential for applications like financial transactions, real-time analytics, and large-scale virtualization, where latency spikes can have significant operational impacts.

ECC Data Protection and Reliability Features

Error Correction Code technology forms the backbone of data integrity in enterprise SSDs. As storage densities increase and NAND flash cells become smaller, the likelihood of bit errors rises. Enterprise-class ECC mechanisms detect and correct errors before they impact data accuracy or system stability. This category emphasizes multi-layered data protection strategies that operate at both the hardware and firmware levels.

Enterprise Reliability Standards

Drives in this category are validated against rigorous enterprise reliability standards, including extended burn-in testing and continuous operation scenarios. These validation processes simulate real-world workloads and environmental conditions to ensure consistent behavior over the drive’s lifespan. The result is a storage solution that organizations can trust for always-on operations and long-term deployments.

Non-Opal Security Model

Non-Opal security configurations are often preferred in controlled enterprise environments where encryption and access control are managed at the system or application level. By omitting self-encrypting drive features, this category focuses on compatibility and simplicity, ensuring seamless integration with existing security frameworks. This approach can reduce complexity in large-scale deployments while maintaining compliance with organizational security policies.

Power Efficiency 

High-capacity NVMe SSDs reduce the number of physical devices required to achieve a given storage target, leading to lower power consumption and simplified cooling requirements. This efficiency translates into operational savings and improved scalability, particularly in large data center deployments where power and space are at a premium.

Compatibility with Enterprise Platforms

Broad compatibility with leading server platforms, storage arrays, and operating systems is a hallmark of this category. Extensive interoperability testing ensures seamless integration into existing environments, reducing deployment complexity and accelerating time to value. This compatibility is essential for organizations managing diverse hardware and software ecosystems.