OpenRAM/compiler/datasheet/datasheet_gen.py

#!/usr/bin/env python3
"""
This is a script to load data from the characterization and layout processes into 
a web friendly html datasheet.
"""
#TODO:
#include log file
#Diagram generation
#Improve css


import debug
from globals import OPTS
import os, math
import optparse
import csv
from datasheet import *
from table_gen import *

def process_name(corner):
    """
    Expands the names of the characterization corner types into something human friendly
    """
    if corner == "TT":
        return "Typical - Typical"
    if corner == "SS":
        return "Slow - Slow"
    if corner == "FF":
        return "Fast - Fast"
    else:
        return "custom"

def parse_characterizer_csv(sram,f,pages):
    """
    Parses output data of the Liberty file generator in order to construct the timing and
    current table
    """
    with open(f) as csv_file:
        csv_reader = csv.reader(csv_file, delimiter=',')
        line_count = 0
        for row in csv_reader:

            found = 0
            col = 0

            #defines layout of csv file
            NAME = row[col]
            col += 1

            NUM_WORDS = row[col]
            col += 1

            NUM_BANKS = row[col]
            col += 1

            NUM_RW_PORTS = row[col]
            col += 1

            NUM_W_PORTS = row[col]
            col += 1

            NUM_R_PORTS = row[col]
            col += 1

            TECH_NAME = row[col]
            col += 1

            TEMP = row[col]
            col += 1

            VOLT = row[col]
            col += 1

            PROC = row[col]
            col += 1

            MIN_PERIOD = row[col]
            col += 1

            OUT_DIR = row[col]
            col += 1

            LIB_NAME = row[col]
            col += 1

            WORD_SIZE = row[col]
            col += 1
            
            ORIGIN_ID = row[col]
            col += 1

            DATETIME = row[col]
            col+= 1

            DRC = row[col]
            col += 1

            LVS = row[col]
            col += 1
    
            for sheet in pages:


                if sheet.name == NAME:

                    found = 1
                    #if the .lib information is for an existing datasheet compare timing data

                    for item in sheet.operating_table.rows:
                        #check if the new corner data is worse than the previous worse corner data

                        if item[0] == 'Operating Temperature':
                            if float(TEMP) > float(item[3]):
                                item[2] = item[3]
                                item[3] = TEMP
                            if float(TEMP) < float(item[1]):
                                item[2] = item[1]
                                item[1] = TEMP

                        if item[0] == 'Power supply (VDD) range':
                            if float(VOLT) > float(item[3]):
                                item[2] = item[3]
                                item[3] = VOLT
                            if float(VOLT) < float(item[1]):
                                item[2] = item[1]
                                item[1] = VOLT

                        if item[0] == 'Operating Frequncy (F)':
                            try:
                                if float(math.floor(1000/float(MIN_PERIOD)) < float(item[3])):
                                    item[3] = str(math.floor(1000/float(MIN_PERIOD)))
                            except Exception:
                                pass


                    while(True):

                       
                        if(row[col].startswith('DIN')):
                            start = col
                            for item in sheet.timing_table.rows:
                                if item[0].startswith(row[col]):

                                    if item[0].endswith('setup rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('setup falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                            col += 1

                        elif(row[col].startswith('DOUT')):
                            start = col
                            for item in sheet.timing_table.rows:
                                if item[0].startswith(row[col]):

                                    if item[0].endswith('cell rise'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('cell fall'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('rise transition'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('fall transition'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                            col += 1

                        elif(row[col].startswith('CSb')):
                            start = col
                            for item in sheet.timing_table.rows:
                                if item[0].startswith(row[col]):

                                    if item[0].endswith('setup rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('setup falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                            col += 1


                        elif(row[col].startswith('WEb')):
                            start = col
                            for item in sheet.timing_table.rows:
                                if item[0].startswith(row[col]):

                                    if item[0].endswith('setup rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('setup falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                            col += 1


                        elif(row[col].startswith('ADDR')):
                            start = col
                            for item in sheet.timing_table.rows:
                                if item[0].startswith(row[col]):

                                    if item[0].endswith('setup rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('setup falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold rising'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                                    elif item[0].endswith('hold falling'):
                                        if float(row[col+1]) < float(item[1]):
                                            item[1] = row[col+1]
                                        if float(row[col+2]) > float(item[2]):
                                            item[2] = row[col+2]

                                        col += 2

                            col += 1



                        else:
                            break


                    new_sheet.corners_table.add_row([PROC,process_name(PROC),VOLT,TEMP,LIB_NAME.replace(OUT_DIR,'').replace(NAME,'')])
                    new_sheet.dlv_table.add_row(['.lib','Synthesis models','<a href="file://{0}">{1}</a>'.format(LIB_NAME,LIB_NAME.replace(OUT_DIR,''))])

            if found == 0:
                
                #if this is the first corner for this sram, run first time configuration and set up tables
                new_sheet = datasheet(NAME)
                pages.append(new_sheet)

                new_sheet.git_id = ORIGIN_ID
                new_sheet.time = DATETIME
                new_sheet.DRC = DRC
                new_sheet.LVS = LVS
                new_sheet.description = [NAME, NUM_WORDS, NUM_BANKS, NUM_RW_PORTS, NUM_W_PORTS, NUM_R_PORTS, TECH_NAME, WORD_SIZE, ORIGIN_ID, DATETIME]

                new_sheet.corners_table = table_gen("corners")
                new_sheet.corners_table.add_row(['Corner Name','Process','Power Supply','Temperature','Library Name Suffix'])
                new_sheet.corners_table.add_row([PROC,process_name(PROC),VOLT,TEMP,LIB_NAME.replace(OUT_DIR,'').replace(NAME,'')])
                new_sheet.operating_table = table_gen("operating_table")
                new_sheet.operating_table.add_row(['Parameter','Min','Typ','Max','Units'])
                new_sheet.operating_table.add_row(['Power supply (VDD) range',VOLT,VOLT,VOLT,'Volts'])
                new_sheet.operating_table.add_row(['Operating Temperature',TEMP,TEMP,TEMP,'Celsius'])

                try:
                    new_sheet.operating_table.add_row(['Operating Frequency (F)','','',str(math.floor(1000/float(MIN_PERIOD))),'MHz'])
                except Exception:
                    new_sheet.operating_table.add_row(['Operating Frequency (F)','','',"not available in netlist only",'MHz']) #failed to provide non-zero MIN_PERIOD
                new_sheet.timing_table = table_gen("timing")
                new_sheet.timing_table.add_row(['Parameter','Min','Max','Units'])
                while(True):
                    if(row[col].startswith('DIN')):
                        start = col
                        
                        new_sheet.timing_table.add_row(['{0} setup rising'.format(row[start]),row[col+1],row[col+2],'ns'])
                        col += 2

                        
                        new_sheet.timing_table.add_row(['{0} setup falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2
                    
                        new_sheet.timing_table.add_row(['{0} hold rising'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        new_sheet.timing_table.add_row(['{0} hold falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        col +=1

                    elif(row[col].startswith('DOUT')):
                        start = col
                        
                        new_sheet.timing_table.add_row(['{0} cell rise'.format(row[start]),row[col+1],row[col+2],'ns'])
                        col += 2

                        
                        new_sheet.timing_table.add_row(['{0} cell fall'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2
                    
                        new_sheet.timing_table.add_row(['{0} rise transition'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        new_sheet.timing_table.add_row(['{0} fall transition'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        col +=1

                    elif(row[col].startswith('CSb')):
                        start = col
                        
                        new_sheet.timing_table.add_row(['{0} setup rising'.format(row[start]),row[col+1],row[col+2],'ns'])
                        col += 2

                        
                        new_sheet.timing_table.add_row(['{0} setup falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2
                    
                        new_sheet.timing_table.add_row(['{0} hold rising'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        new_sheet.timing_table.add_row(['{0} hold falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        col +=1

                    elif(row[col].startswith('WEb')):
                        start = col
                        
                        new_sheet.timing_table.add_row(['{0} setup rising'.format(row[start]),row[col+1],row[col+2],'ns'])
                        col += 2

                        
                        new_sheet.timing_table.add_row(['{0} setup falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2
                    
                        new_sheet.timing_table.add_row(['{0} hold rising'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        new_sheet.timing_table.add_row(['{0} hold falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        col +=1

                    elif(row[col].startswith('ADDR')):
                        start = col
                        
                        new_sheet.timing_table.add_row(['{0} setup rising'.format(row[start]),row[col+1],row[col+2],'ns'])
                        col += 2

                        
                        new_sheet.timing_table.add_row(['{0} setup falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2
                    
                        new_sheet.timing_table.add_row(['{0} hold rising'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        new_sheet.timing_table.add_row(['{0} hold falling'.format(row[start]),row[col+1],row[col+2],'ns'])

                        col += 2

                        col +=1

                    else:
                        break


                    
                new_sheet.dlv_table = table_gen("dlv")
                new_sheet.dlv_table.add_row(['Type','Description','Link'])

                new_sheet.io_table = table_gen("io")
                new_sheet.io_table.add_row(['Type', 'Value'])

                if not OPTS.netlist_only:
                    #physical layout files should not be generated in netlist only mode
                    new_sheet.dlv_table.add_row(['.gds','GDSII layout views','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'gds')])
                    new_sheet.dlv_table.add_row(['.lef','LEF files','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'lef')])
 
               
                new_sheet.dlv_table.add_row(['.log','OpenRAM compile log','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'log')])
                new_sheet.dlv_table.add_row(['.v','Verilog simulation models','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'v')])
                new_sheet.dlv_table.add_row(['.html','This datasheet','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'html')])
                new_sheet.dlv_table.add_row(['.lib','Synthesis models','<a href="{1}">{1}</a>'.format(LIB_NAME,LIB_NAME.replace(OUT_DIR,''))])
                new_sheet.dlv_table.add_row(['.py','OpenRAM configuration file','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'py')])
                new_sheet.dlv_table.add_row(['.sp','SPICE netlists','<a href="{0}.{1}">{0}.{1}</a>'.format(OPTS.output_name,'sp')])

                new_sheet.io_table.add_row(['WORD_SIZE',WORD_SIZE])
                new_sheet.io_table.add_row(['NUM_WORDS',NUM_WORDS])
                new_sheet.io_table.add_row(['NUM_BANKS',NUM_BANKS])
                new_sheet.io_table.add_row(['NUM_RW_PORTS',NUM_RW_PORTS])
                new_sheet.io_table.add_row(['NUM_R_PORTS',NUM_R_PORTS])
                new_sheet.io_table.add_row(['NUM_W_PORTS',NUM_W_PORTS])
                new_sheet.io_table.add_row(['Area',sram.width * sram.height])
                





class datasheet_gen():
     def datasheet_write(sram,name):
        

        in_dir = OPTS.openram_temp

        if not (os.path.isdir(in_dir)):
            os.mkdir(in_dir)


        datasheets = []
        parse_characterizer_csv(sram, in_dir + "/datasheet.info", datasheets)


        for sheets in datasheets:
            with open(name, 'w+') as f:
                sheets.generate_html()
                f.write(sheets.html)