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pad_cfg.hjson
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pad_cfg.hjson
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// Copyright 2020 ETH Zurich and University of Bologna.
// Solderpad Hardware License, Version 0.51, see LICENSE for details.
// SPDX-License-Identifier: SHL-0.51
// Derived from Occamy: https://github.com/pulp-platform/snitch/blob/master/hw/system/occamy/src/occamy_cfg.hjson
//
// Pads configuration for core-v-mini-mcu. Read by mcu_gen.py.
//
// The pads contains the list of all the pads available in the design.
// Each pad is defined by its name and can have the following attributes:
// num: <number> (mandatory) - the number of pads of this type
// type: <input|output|inout|supply> (mandatory) - the type of the pad
// num_offset: <number> (optional) - the offset to the first pad of this type (default 0)
// mapping: <top|right|bottom|left> (optional) - the mapping of the pad in the design. Useful for ASICs (default top)
// active: <low|high> (optional) - the active level of the pad (default high)
// driven_manually: <True|False> (optional) - the pad is driven manually (default False)
// mux: <dict> (optional) - the muxing options for the pad
// skip_declaration: <True|False> (optional) - skip the declaration of the pad in the top level (default False)
// keep_internal: <True|False> (optional) - keep the pad internal to the design (default False)
// layout_attributes: (optional) - collection of attributes related to the physical (ASIC) layout of the pads
// index: (mandatory) index of the pad on its side of the I/O ring
// orient: (optional) <R0|R90|R180|R270|MX|MX90|MY|MY90> - orientation of the pad
// cell: (mandatory for type "supply") <valid name of cell in the desired tech. library> - specific cell to use if not a default pad cell (ex. for VDD/VSS pads)
// offset: (optional) <float> - offset from edge (in um)
// skip: (optional) <float> - distance from neighboring pad (in um)
//
// Add this field at the same level of pads (not inside) if you want to define PADs attributes
// attributes: {
// bits: 7:0
// resval: 0x3
// },
{
pads: {
clk: {
num: 1,
type: input
},
rst: {
num: 1,
active: low,
driven_manually: True
type: input
},
boot_select: {
num: 1,
type: input
},
execute_from_flash: {
num: 1,
type: input
},
jtag_tck: {
num: 1,
type: input
},
jtag_tms: {
num: 1,
type: input
},
jtag_trst: {
num: 1,
active: low,
type: input
},
jtag_tdi: {
num: 1,
type: input
},
jtag_tdo: {
num: 1,
type: output
},
uart_rx: {
num: 1,
type: input
},
uart_tx: {
num: 1,
type: output
},
exit_valid: {
num: 1,
type: output
},
gpio: {
num: 18,
num_offset: 0, #first gpio is gpio0
type: inout
},
spi_flash_sck: {
num: 1,
type: inout
},
spi_flash_cs: {
num: 2, #carefull, the x-heep uses the CS from the spi pkg, change it
type: inout
},
spi_flash_sd: {
num: 4,
type: inout
},
spi_sck: {
num: 1,
type: inout
},
spi_cs: {
num: 2,
type: inout
},
spi_sd: {
num: 4,
type: inout
},
pdm2pcm_pdm: {
num: 1,
type: inout
mux: {
pdm2pcm_pdm: {
type: inout
},
gpio_18: {
type: inout
}
}
},
pdm2pcm_clk: {
num: 1,
type: inout
mux: {
pdm2pcm_clk: {
type: inout
},
gpio_19: {
type: inout
}
}
},
i2s_sck: {
num: 1,
type: inout
mux: {
i2s_sck: {
type: inout
},
gpio_20: {
type: inout
}
}
},
i2s_ws: {
num: 1,
type: inout
mux: {
i2s_ws: {
type: inout
},
gpio_21: {
type: inout
}
}
},
i2s_sd: {
num: 1,
type: inout
mux: {
i2s_sd: {
type: inout
},
gpio_22: {
type: inout
}
}
},
spi2_cs_0: {
num: 1,
type: inout
mux: {
spi2_cs_0: {
type: inout
},
gpio_23: {
type: inout
},
}
},
spi2_cs_1: {
num: 1,
type: inout
mux: {
spi2_cs_1: {
type: inout
},
gpio_24: {
type: inout
},
},
},
spi2_sck: {
num: 1,
type: inout
mux: {
spi2_sck: {
type: inout
},
gpio_25: {
type: inout
},
}
},
spi2_sd_0: {
num: 1,
type: inout
mux: {
spi2_sd_0: {
type: inout
},
gpio_26: {
type: inout
},
}
},
spi2_sd_1: {
num: 1,
type: inout
mux: {
spi2_sd_1: {
type: inout
},
gpio_27: {
type: inout
},
}
},
spi2_sd_2: {
num: 1,
type: inout
mux: {
spi2_sd_2: {
type: inout
},
gpio_28: {
type: inout
},
}
},
spi2_sd_3: {
num: 1,
type: inout
mux: {
spi2_sd_3: {
type: inout
},
gpio_29: {
type: inout
},
}
},
i2c_scl: {
num: 1,
type: inout
mux: {
i2c_scl: {
type: inout
},
gpio_31: {
type: inout
},
}
},
i2c_sda: {
num: 1,
type: inout
mux: {
i2c_sda: {
type: inout
},
gpio_30: {
type: inout
},
}
}
}
}