Maxio 1602 Full Upd -
This is one of the first DRAMless controllers that allows 4-channel architectures to reach maximum PCIe 4.0 speeds, often topping out at over 7000MB/s in sequential read tasks. This places it in direct competition with premium controllers like the Phison E18 or Silicon Motion SM2264, but at a lower price point. 3. Efficiency and Low Power Consumption
, "1602" does not refer to a specific product version but might be a specific internal code or error you've encountered. Maxio provides: Full Subscription Management: Handling the entire lifecycle from signup to renewal. Advanced Billing: Automated invoicing and revenue recognition. Reporting:
Maxio MAP1602 (specifically the MAP1602A "Falcon Lite") is a high-performance, cost-effective PCIe 4.0 x4
Because the drive operates without a DRAM cache, it does have a finite threshold. If you are doing massive, sustained writes—such as transferring hundreds of gigabytes of 4K video footage in a single continuous stream—the drive will eventually fill its SLC cache and drop to native TLC write speeds. While it handles bursts of creative work beautifully, heavy, sustained professional workflows may still benefit from premium drives with dedicated DRAM. 3. Laptop and Mobile Use Because the maxio 1602 full
Often exceeds 1 million for both read and write.
The (often referred to as " MAP1602 full ") is widely considered one of the most successful DRAM-less PCIe 4.0 SSD controllers on the market. It is the hardware behind popular high-value drives like the Lexar NM790 and Acer Predator GM7 Key Strengths
without requiring an expensive onboard DRAM cache, primarily by leveraging Host Memory Buffer (HMB) technology. TechPowerUp Key Technical Specifications : PCIe Gen4 x4, NVMe 2.0 protocol support. Architecture : Quad-core ARM Cortex-R5 processor running at 1,000 MHz. Manufacturing Process : Built on TSMC’s node, providing excellent power efficiency. Flash Channels : 4 channels supporting interface speeds up to NAND Support : Compatible with 3D MLC, TLC, and QLC; often paired with YMTC 232-layer TLC NAND to reach maximum speeds. TechPowerUp Performance Highlights Sequential Reads 7,400 MB/s Sequential Writes 6,500 MB/s Random 4K IOPS for both reads and writes. : Supports drive capacities from 500GB up to Core Features DRAM-less with HMB This is one of the first DRAMless controllers
Other high-speed PCIe 4.0 drives using this silicon .
The MAX1602 is pin-compatible and software-compatible with older industry-standard PC card controllers like those from Cirrus Logic and Intel. It was widely used in laptops, docking stations, and portable data loggers. Today, it's mainly relevant for repairing vintage hardware or maintaining industrial systems.
In the rapidly evolving world of Solid State Drives (SSDs), a new player has redefined the price-performance landscape: the controller. Traditionally, top-tier performance required expensive DRAM chips to map data, pushing SSD costs higher. The Maxio 1602 changes this formula, offering blistering PCIe 4.0 speeds in a DRAM-less architecture . Efficiency and Low Power Consumption , "1602" does
The MAP1602 is frequently paired with 176-layer or 232-layer TLC/QLC NAND, making it capable of competing with DRAM-based alternatives. Specification Maxio MAP1602 Capacity PCIe Gen4x4, NVMe 1.4/2.0 Max Capacity Seq. Read Seq. Write Random Read Up to 1,000K IOPS Random Write Up to 1,000K IOPS
This monitor's main strength is its simplicity: it connects to your laptop, PC, smartphone, or gaming console via a single USB-C cable for both power and video transmission, offering a simple plug-and-play experience.
The hardware specifications of the Maxio MAP1602 outline how it achieves top-tier PCIe 4.0 data throughput while minimizing production costs and power draw: Specification Details PCIe Gen4 x4, NVMe 2.0 / 1.4 Architecture 4-Channel, DRAM-less Max Sequential Read Up to 7,400 MB/s Max Sequential Write Up to 6,500 MB/s Max 4K Random Read/Write Up to 1,000,000 IOPS / 1,000,000 IOPS Flash Interface Bus Speed ONFi 5.0 / Toggle 5.0 up to 2400 MT/s Maximum Capacity Error Correction Maxio Agile ECC 3 Technology Hardware Encryption AES-256, SM2, SM3, SM4 Manufacturing Process TSMC 12nm node Architectural Highlights & Performance Drivers 1. True DRAM-less Architecture via HMB