Maxio 1602 ((better)) Full
Traditional DRAM-less SSDs were historically plagued by stuttering and low random read/write performance because they lacked a fast cache to map where data is physically stored on the NAND flash. The Maxio 1602 circumvents this restriction entirely by utilizing .
The Maxio 1602 Full offers several benefits to businesses, including:
: This is a clear generational gap. The MAP1602 has nearly 14x the theoretical sequential read performance of the SM2258, a popular SATA controller from the mid-2010s. This highlights just how far the industry has moved to NVMe.
The Maxio MAP1602 is a transformative piece of silicon that has democratized PCIe 4.0 speeds. By delivering top-tier sequential throughput without an expensive DRAM cache, it has made high-performance storage incredibly affordable and accessible. Its widespread adoption in dozens of SSDs from brands like Acer, ADATA, Lexar, and many others is a testament to its compelling value. maxio 1602 full
However, one area where the MAP1602's DRAM-less nature becomes apparent is in . For smaller writes, the drives rely on a fast SLC cache, but once the cache is exhausted, write speeds can drop significantly. Long-duration tests exceeding 100GB can see performance fall, highlighting that while the MAP1602 is exceptional for bursty, everyday tasks, it may not be the ideal choice for professionals constantly moving massive files.
) is one of the most disruptive hardware components in modern solid-state storage history. Developed by China-based Maxio Technology—a company that inherited its storage DNA by spinning off from JMicron—this high-performance, single-handedly rewritten the rulebook on value-tier SSDs.
Many popular SSDs use the MAP1602, including the , Acer FA200 , Adata Legend 900 , Silicon Power US75 , and Dahua C970 Plus . The MAP1602 has nearly 14x the theoretical sequential
Here is a helpful guide to understanding and using the Maxio 1602 (I2S Audio Decoder) module.
Features built-in thermal throttling and power management to prevent overheating in compact devices like laptops and the PS5. Encryption:
Because it lacks an on-board DRAM chip (which can generate significant heat under load), MAP1602-driven SSDs can run at maximum speed with only a basic copper foil label or a thin motherboard heat spreader. This low-temperature blueprint makes it highly desirable for slim laptops, handheld gaming devices (like the Steam Deck or ROG Ally via 2230/2242 adapters), and the PlayStation 5 console. NVMe 2.0 / 1.4 Architecture 4-Channel
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
The controller runs 4 channels with up to 8 chip enables (CE) per channel. This allows it to address up to 4TB of NAND flash. While 4 channels are half of what high-end controllers (like the Phison E18 with 8 channels) use, the Maxio 1602 compensates with a high interface speed per channel (up to 1200 MT/s).