Flash and EEPROM Memory
The DS1202 has 1024KBytes of flash memory and 2KBytes of EEPROM memory.
The first 64KBytes of flash memory are used to store the TiOS firmware. When you are performing a firmware upgrade it is this memory you are saving the firmware binary into.
The rest of this flash memory is available to your Tibbo BASIC/C application and its data. Whatever memory space is left after the compiled application is loaded can be used as a flash disk (see fd. object documentation in the TIDE, TiOS, Tibbo BASIC, and Tibbo C Manual).
The EEPROM is almost fully available to your application, save for a small 28-byte area called "special configuration area". The EEPROM is accessed through the stor. object (see TIDE, TiOS, Tibbo BASIC, and Tibbo C Manual). Details on the special configuration area are provided in the Platform-dependent Programming Information section inside the DS1202 and EM1202 platform documentation (same manual).
On the advice of one of our customers we are giving you the following reminder: Like all other EEPROMs on the market, EEPROM ICs used in Tibbo devices allow for a limited number of write cycles. As the Wikipedia article on EEPROMs (https://en.wikipedia.org/wiki/EEPROM) states, the EEPROM " ...has a limited life for erasing and reprogramming, now reaching a million operations in modern EEPROMs. In an EEPROM that is frequently reprogrammed while the computer is in use, the life of the EEPROM is an important design consideration ." When planning to use the stor. object, please carefully consider if the planned mode of EEPROM use will allow the EEPROM to work reliably through the entire projected life of your product. For more information see Prolonging and Estimating EEPROM Life.
Like all other flash memory devices on the market, flash ICs used in Tibbo products only allow for a limited number of write cycles. As the Wikipedia article on flash memory (https://en.wikipedia.org/wiki/Flash_memory) explains, modern flash ICs still suffer from comparatively low write endurance. In Tibbo devices, this endurance is around 100'000 write cycles per sector. When you are using the flash memory for file storage, the fd. object employs sector wear leveling to maximize the life of the flash IC (but the life still remains limited). If your application employs direct sector access, then it is your job to plan the application around the life limitations of the flash memory. For data that changes often, consider using the EEPROM memory instead. EEPROMs have much better endurance.