// license:BSD-3-Clause // copyright-holders:AJR /********************************************************************** Xicor X2201 1024 x 1 bit Nonvolatile Static RAM This was Xicor's first NOVRAM product, combining static RAM with an EĀ²PROM overlay. Besides having separate data input and output lines (and only one of each), its interface differs slightly from the later NOVRAMs in requiring an active chip select during recall and store operations. The CS and STORE lines, however, may be deactivated before the operation completes (in 2 to 4 ms). While US patent 4535411A suggests that this device was sometimes used in groups of eight to simulate a byte-wide memory, the emulation (for the most part) assumes each bit will be accessed separately and packs them into bytes for storage efficiency. X2202 has the same internal organization and data addressing as X2201, but its recall operation works on individual bits instead of the entire array. **********************************************************************/ #include "emu.h" #include "machine/x2201.h" #include //************************************************************************** // TYPE DEFINITIONS //************************************************************************** DEFINE_DEVICE_TYPE(X2201, x2201_device, "x2201", "Xicor X2201 1024x1 NOVRAM") //************************************************************************** // DEVICE CONSTRUCTION AND INITIALIZATION //************************************************************************** //------------------------------------------------- // x2201_device - constructor //------------------------------------------------- x2201_device::x2201_device(const machine_config &mconfig, const char *tag, device_t *owner, u32 clock) : device_t(mconfig, X2201, tag, owner, clock) , device_nvram_interface(mconfig, *this) , m_default_data(*this, DEVICE_SELF, 1024 / 8) , m_cs(false) , m_store(false) , m_array_recall(false) { } //------------------------------------------------- // device_start - device-specific startup //------------------------------------------------- void x2201_device::device_start() { // create arrays m_ram = make_unique_clear(1024 / 8); m_eeprom = std::make_unique(1028 / 8); // register state for saving save_pointer(NAME(m_ram), 1024 / 8); save_pointer(NAME(m_eeprom), 1024 / 8); save_item(NAME(m_cs)); save_item(NAME(m_store)); save_item(NAME(m_array_recall)); } //************************************************************************** // NVRAM INTERFACE //************************************************************************** //------------------------------------------------- // nvram_default - called to initialize NVRAM to // its default state //------------------------------------------------- void x2201_device::nvram_default() { // erase to ones unless region overrides if (m_default_data.found()) std::copy_n(&m_default_data[0], 1024 / 8, &m_eeprom[0]); else std::fill_n(&m_eeprom[0], 1024 / 8, 0xff); } //------------------------------------------------- // nvram_read - called to read NVRAM from the // specified file //------------------------------------------------- void x2201_device::nvram_read(emu_file &file) { file.read(&m_eeprom[0], 1024 / 8); } //------------------------------------------------- // nvram_write - called to write NVRAM to the // specified file //------------------------------------------------- void x2201_device::nvram_write(emu_file &file) { file.write(&m_eeprom[0], 1024 / 8); } //************************************************************************** // MEMORY ACCESS //************************************************************************** //------------------------------------------------- // read - read the addressed bit of RAM //------------------------------------------------- u8 x2201_device::read(offs_t offset) { return BIT(m_ram[(offset >> 3) & 127], offset & 7); } //------------------------------------------------- // write - write one bit of data to RAM //------------------------------------------------- void x2201_device::write(offs_t offset, u8 data) { offs_t address = (offset >> 3) & 127; if (BIT(data, 0)) m_ram[address] |= 1 << (offset & 7); else m_ram[address] &= ~(1 << (offset & 7)); } //************************************************************************** // CONTROL STROBES //************************************************************************** //------------------------------------------------- // cs_w - write to the CS line (active low) //------------------------------------------------- WRITE_LINE_MEMBER(x2201_device::cs_w) { m_cs = !state; } //------------------------------------------------- // store_w - trigger to store RAM data in EEPROM // (active low) //------------------------------------------------- WRITE_LINE_MEMBER(x2201_device::store_w) { if (m_cs && !state && !m_store) std::copy_n(&m_ram[0], 1024 / 8, &m_eeprom[0]); m_array_recall = !state; } //------------------------------------------------- // array_recall_w - trigger to pull EEPROM data // into RAM (active low) //------------------------------------------------- WRITE_LINE_MEMBER(x2201_device::array_recall_w) { if (m_cs && !state && !m_array_recall) std::copy_n(&m_eeprom[0], 1024 / 8, &m_ram[0]); m_array_recall = !state; }