There are additional power saving features provided by FERAM. The processor can write to FERAM quicker than it can the same amount of data to EEPROM. This consumes less power and is done quicker. The graph here on the left shows how much time and how much power is required to write 1 mega bit of data into an FERAM and EEPROM respectively. The red triangle represents the time and energy required to write that amount of data into an EEPROM, and the small green triangle represents the time and energy required to write the same amount of data into an FERAM. The FERAM triangle is much smaller, so less power is consumed writing into FERAM and it happens faster as compared to EEPROM. Writing to Flash takes even longer so the triangle associated with a FLASH device would be even larger than the red triangle. Another advantage of the quick write time is that the processor can go to sleep in between writes to FERAM. The FERAM can enter Stand By mode between accesses, so overall power consumption is reduced as compared to other non-volatile memories and the processor has time available for other functions or can be used to put to sleep between writes to the FERAM. Attention to power consumption during the design of these devices results in an industry-leading low consumption of 10 µA in standby mode and a sleep current of just 0.1 µA, making them ideal for applications like battery operated products, where low power consumption is key design goal.