# HG changeset patch
# User Mychaela Falconia <falcon@freecalypso.org>
# Date 1501898536 0
# Node ID 0aa748b6413a00f3654de651d8e9bfe82751289c
# Parent  3edeadec6804e3b013e29df430a52ea1c35fa289
src/cs/system/Main/init.c: initial import from LoCosto source

diff -r 3edeadec6804 -r 0aa748b6413a src/cs/system/Main/init.c
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/src/cs/system/Main/init.c	Sat Aug 05 02:02:16 2017 +0000
@@ -0,0 +1,2369 @@
+/*
+ * INIT.C
+ *
+ * This module allows to initialize the board:
+ *     - wait states,
+ *     - unmask selected interrupts,
+ *     - initialize clock,
+ *     - disable watchdog.
+ * Dummy functions used by the EVA3 library are defined.
+ */
+
+/* Config Files */
+
+#pragma DUPLICATE_FOR_INTERNAL_RAM_START
+
+#ifndef PSP_FAILSAFE
+#define PSP_FAILSAFE 0
+#warn "PSP Failsafe Flag Not Defined in your Build, taking default"
+#endif
+
+
+#ifndef _WINDOWS
+  #include "l1sw.cfg"
+  #include "rf.cfg"
+  #include "chipset.cfg"
+  #include "board.cfg"
+  #include "swconfig.cfg"
+  #if (OP_L1_STANDALONE == 0)
+    #include "rv.cfg"
+    #include "sys.cfg"
+    #include "debug.cfg"
+    #ifdef BLUETOOTH_INCLUDED
+      #include "btemobile.cfg"
+    #endif
+    #ifdef BLUETOOTH
+      #include "bluetooth.cfg"
+    #endif
+  #endif
+
+  #if (OP_L1_STANDALONE == 0)
+    #include "rv/rv_defined_swe.h"
+  #endif
+#endif
+
+/* Include Files */
+#include <assert.h>
+#include <ctype.h>
+#include <stdarg.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "nucleus.h"
+
+#include "sys_types.h"
+#include "l1_types.h"
+#include "l1_confg.h"
+#include "l1_const.h"
+#include "pin_config.h" // added for Init tuned to Power Management
+
+#if TESTMODE
+  #include "l1tm_defty.h"
+#endif // TESTMODE
+
+#if (AUDIO_TASK == 1)
+  #include "l1audio_const.h"
+  #include "l1audio_cust.h"
+  #include "l1audio_defty.h"
+#endif // AUDIO_TASK
+
+#if (L1_GTT == 1)
+  #include "l1gtt_const.h"
+  #include "l1gtt_defty.h"
+#endif
+
+#if (L1_MP3 == 1)
+  #include "l1mp3_defty.h"
+#endif
+
+#if (L1_MIDI == 1)
+  #include "l1midi_defty.h"
+#endif
+
+#if (L1_AAC == 1)
+  #include "l1aac_defty.h"
+#endif
+#if (L1_DYN_DSP_DWNLD == 1)
+  #include "l1_dyn_dwl_defty.h"
+#endif
+
+#if (TRACE_TYPE == 4)
+  #include "l1_defty.h"
+#endif
+
+
+#if ((OP_L1_STANDALONE == 1) && (CODE_VERSION != SIMULATION) && (PSP_STANDALONE == 0))
+
+  #if (AUDIO_TASK == 1)
+    #include "l1audio_signa.h"
+    #include "l1audio_msgty.h"
+  #endif // AUDIO_TASK
+
+  #if (L1_GTT == 1)
+    #include "l1gtt_signa.h"
+    #include "l1gtt_msgty.h"
+  #endif
+
+  #include "l1_defty.h"
+  #include "cust_os.h"
+  #include "l1_msgty.h"
+  #include "nu_main.h"
+  #include "l1_varex.h"
+  #include "l1_proto.h"
+  #include "hw_debug.h"
+  #include "l1_trace.h"
+
+#endif   /* ((OP_L1_STANDALONE == 1) && (CODE_VERSION != SIMULATION) && (PSP_STANDALONE==0)) */
+
+
+#include "armio/armio.h"
+#include "timer/timer.h"
+
+#if (CHIPSET==15)
+#include "types.h"
+#include "bspI2c.h"
+#include "bspTwl3029.h"
+#include "bspTwl3029_I2c.h"
+#include "bspTwl3029_Power.h"
+#if (OP_L1_STANDALONE == 0)
+  #include "uicc/board/bspUicc.h"
+#endif
+#endif
+
+#if (OP_L1_STANDALONE == 0)
+  #include "rvf/rvf_api.h"
+  #include "rvm/rvm_api.h"  /* A-M-E-N-D-E-D!	*/
+  #include "sim/sim.h"
+#endif
+
+#include "dynamic_clock.h"
+#if (ANLG_FAM !=11)
+#include "abb/abb.h"
+#endif
+
+#if (BOARD==35 || BOARD==46)
+  #if (OP_L1_STANDALONE == 0)
+    #include "csmi/csmi.h"
+    #include "csmi/csmi_gsmctrl.h"
+    #include "csmi/csmi_uart.h"
+    #include "uart/uartfax.h"
+    #include "csmi/csmi_uartfax.h"
+    #include "ffs/ffs.h"
+    #include "ffs/ffspcm.h"
+    #include "csmi/sleep.h"
+  #endif   /* (OP_L1_STANDALONE == 0) */
+#endif
+
+/* WCP Profiler */
+#if (BOARD==35 || BOARD==43 || BOARD==46) && (OP_L1_STANDALONE == 0)
+  #if WCP_PROF == 1
+    #include "prf/prf_api.h"
+  #endif
+#endif
+
+#include "inth/iq.h"
+#include "tpudrv.h"
+#include "memif/mem.h"
+#include "clkm/clkm.h"
+#include "inth/inth.h"
+
+#if (OP_L1_STANDALONE == 0)
+  void  bspUicc_Phy_intCHandler(void);
+#endif
+
+ #if (OP_L1_STANDALONE == 1)
+  	#include "uart/serialswitch_core.h"
+ #else
+  #include "uart/serialswitch.h"
+ #endif
+ #include "uart/traceswitch.h"
+
+
+#include "dma/dma.h"
+#include "rhea/rhea_arm.h"
+
+#include "ulpd/ulpd.h"
+
+#if (PSP_STANDALONE == 0)
+ #if (GSM_IDLE_RAM != 0)
+  #if (OP_L1_STANDALONE == 1)
+   #include "csmi_simul.h"
+  #else
+   #include "csmi/csmi.h"
+  #endif
+ #endif
+#endif
+
+#if (CHIPSET == 12) || (CHIPSET == 15) || ((CHIPSET == 10)  && (OP_WCP == 1))
+  #include "memif/sys_memif.h"
+#endif
+
+#if ((CHIPSET == 12) || (CHIPSET == 15))
+  #include "timer/timer_sec.h"
+  #include "dma/sys_dma.h"
+  #include "conf/sys_conf.h"
+  #include "inth/sys_inth.h"
+ #ifdef RVM_NAN_SWE
+    #include "nan/nan_i.h"
+ #endif
+ #ifdef RVM_DMA_SWE
+    #include "dma/board/dma_inth.h"
+ #endif
+ #ifdef RVM_I2C_SWE
+    #include "i2c/i2c_hw_functions.h"
+ #endif
+ #ifdef RVM_MC_SWE
+    #include "mc/board/mc_inth.h"
+ #endif
+ #ifdef RVM_USB_SWE
+  #include "usb/usb_inth.h"
+ #endif
+#endif
+
+#if (OP_L1_STANDALONE == 0)
+  #define TIMER_RESET_VALUE (0xFFFF)
+
+  /*
+   * These constants define the number of ticks per TDMA when timer 0
+   * is set to pre-scale=0 and the upper limit in percent of TICKS_PER_TDMA
+   * for the execution of synchronous layer 1.
+   */
+  #define TICKS_PER_TDMA    (1875)
+  #define LIMIT_FOR_L1_SYNC (80)
+#endif
+
+UWORD16 flash_device_id;
+#if (PSP_STANDALONE == 0)
+ #if (OP_L1_STANDALONE == 0)
+  extern void ffs_main_init(void);
+  extern void create_tasks(void);
+  #if TI_NUC_MONITOR == 1
+    extern void ti_nuc_monitor_tdma_action( void );
+  #endif
+
+  #if WCP_PROF == 1
+    #if PRF_CALIBRATION == 1
+      extern NU_HISR prf_CalibrationHISR;
+    #endif
+  #endif
+
+ #else
+  void l1ctl_pgm_clk32(UWORD32 nb_hf, UWORD32 nb_32khz);
+  extern void L1_trace_string(char *s);
+ #endif   /* (OP_L1_STANDALONE) */
+#endif
+
+#if (CHIPSET == 12) || (CHIPSET == 15)
+extern const T_INTH_CONFIG a_inth_config[C_INTH_NB_INTERRUPT];
+#ifdef RVM_CAMD_SWE
+extern void f_camera_interrupt_manager(void);
+#endif
+#endif
+
+#if (GSM_IDLE_RAM != 0)
+  #if (CHIPSET == 12) || (CHIPSET == 15)
+
+    // Interrupt handler called in case the interrupt requires the traffic controler active
+    // These routines need to be declared here in order to put them into the a_inth_config_idle_ram structure
+    extern void ext_ram_irq_inth_handler(void);
+    extern void ext_ram_fiq_inth_handler(void);
+
+
+
+    // declared for the _intram file generated by ICL470
+    extern const T_INTH_CONFIG a_inth_config_idle_ram[C_INTH_NB_INTERRUPT];
+
+    // Debug mode: irq ext shall be connected to the chipselect signals
+    #if GSM_IDLE_RAM_DEBUG
+      extern void flash_access_handler(void);
+      extern void ext_ram_access_handler(void);
+    #endif
+  #endif // CHIPSET 12 || CHIPSET 15
+#endif
+
+#if (PSP_STANDALONE == 0)
+ extern void   hisr(void);
+ extern void   layer_1_sync_HISR_entry(void);
+
+ extern NU_HISR  layer_1_sync_HISR;
+
+ #if (CODE_VERSION != SIMULATION)
+  #if (BOARD == 71)
+   extern void INT_DisableIRQ(void);
+   extern void INT_EnableIRQ(void);
+  #endif /* (BOARD == 71) */
+ #endif /* CODE_VERSION != SIMULATION */
+
+#if (LOCOSTO_LITE==1)
+#ifndef HISR_STACK_SHARING
+#define HISR_STACK_SHARING
+#endif
+#endif
+
+#ifdef HISR_STACK_SHARING
+unsigned char HISR_STACK_PRIO2[1500]={0xFE};
+#endif
+
+#if (OP_L1_STANDALONE == 0)
+  #pragma DATA_SECTION(layer_1_sync_stack,".stackandheap");
+  #define LAYER_1_SYNC_STACK_SIZE (3000 /*4000*/)
+  extern unsigned char layer_1_sync_stack[LAYER_1_SYNC_STACK_SIZE];
+ #else
+  #if (LONG_JUMP == 3)
+    #pragma DATA_SECTION(layer_1_sync_stack,".HISR_stack");
+  #endif
+
+  #if TESTMODE
+    extern char FAR layer_1_sync_stack[2600 /*3600*/];   // Frame interrupt task stack for EVA3
+  #else
+    extern char FAR layer_1_sync_stack[1600 /*2600*/];   // Frame interrupt task stack for EVA3
+  #endif
+ #endif   /* OP_L1_STANDALONE */
+
+#if (FF_L1_IT_DSP_USF == 1) || (FF_L1_IT_DSP_DTX == 1)
+	extern void api_modem_hisr();
+#if (LONG_JUMP == 3)
+	#pragma DATA_SECTION(API_MODEM_HISR_stack,".l1s_global");
+#endif
+	extern char FAR API_MODEM_HISR_stack[0x400]; // stack size to be tuned
+	extern NU_HISR  api_modemHISR;
+#endif
+
+ #pragma DUPLICATE_FOR_INTERNAL_RAM_END
+
+ #if !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM !=0))
+  #pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_START
+  #if (OP_L1_STANDALONE == 0)
+    /*
+     * Timing monitor
+     *
+     *
+     */
+    #if (TRACE_TYPE == 4)
+     extern T_L1A_L1S_COM l1a_l1s_com;
+     extern T_L1S_GLOBAL  l1s;
+     UNSIGNED             max_cpu, fn_max_cpu;
+     unsigned short       layer_1_sync_end_time;
+     unsigned short       max_cpu_flag;
+    #endif
+  #endif
+  #pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_END
+ #endif // !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM !=0))
+
+ #if (L1_EXT_AUDIO_MGT == 1)
+  NU_HISR  EXT_AUDIO_MGT_hisr;
+ #ifndef HISR_STACK_SHARING
+  char FAR ext_audio_mgt_hisr_stack[500];
+ #else
+  #define ext_audio_mgt_hisr_stack HISR_STACK_PRIO2
+ #endif
+  extern void Cust_ext_audio_mgt_hisr(void);
+ #endif
+
+#if ( (L1_MP3 == 1) || (L1_MIDI == 1) || (L1_AAC == 1) || (L1_DYN_DSP_DWNLD == 1) )   // equivalent to an API_HISR flag
+  extern void api_hisr(void);
+  #ifndef HISR_STACK_SHARING
+  #if (LONG_JUMP == 3)
+    #pragma DATA_SECTION (API_HISR_stack,".l1s_global");
+  #endif
+
+  char FAR API_HISR_stack[0x400];
+  #else
+  #define API_HISR_stack HISR_STACK_PRIO2
+  #endif
+  NU_HISR apiHISR;
+ #endif // (L1_MP3 == 1) || (L1_MIDI == 1) || (L1_DYN_DSP_DWNLD == 1)
+
+#if (FF_L1_IT_DSP_USF == 1) || (FF_L1_IT_DSP_DTX == 1)
+  #if !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM != 0))
+  #pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_START
+    char FAR API_MODEM_HISR_stack[0x400]; // stack size to be tuned
+    NU_HISR api_modemHISR;
+  #pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_END
+  #endif
+#endif // FF_L1_IT_DSP_USF
+#endif /* PSP_STANDALONE == 0 */
+
+#if (OP_L1_STANDALONE == 1)
+  #if ((TRACE_TYPE==1) || (TRACE_TYPE==2) || (TRACE_TYPE==3)  || (TRACE_TYPE==7) || TESTMODE)
+    #include "uart/uart.h"
+/*
+ * Serial Configuration set up.
+ */
+
+    extern char ser_cfg_info[NUMBER_OF_TR_UART];
+    #include "rvt_gen.h"
+    extern T_RVT_USER_ID trace_id;
+  #endif
+#endif   /* (OP_L1_STANDALONE == 1) */
+
+/*
+ * Serial Configuration set up.
+ */
+
+/*
+** One config is:
+** {XXX_BT_HCI,         // Bluetooth HCI
+**  XXX_FAX_DATA,       // Fax/Data AT-Cmd
+**  XXX_TRACE,          // L1/Riviera Trace Mux
+**  XXX_TRACE},         // Trace PS
+**
+** with XXX being DUMMY, UART_IRDA or UART_MODEM
+*/
+
+#if ((((TRACE_TYPE==1) || (TRACE_TYPE==2) || (TRACE_TYPE==3)  || (TRACE_TYPE==7) ||\
+       (TESTMODE)) && (OP_L1_STANDALONE == 1)) || (OP_L1_STANDALONE == 0))
+  #if (OP_L1_STANDALONE == 1)
+    static T_AppliSerialInfo appli_ser_cfg_info =
+  #else
+    T_AppliSerialInfo appli_ser_cfg_info =
+  #endif   /* OP_L1_STANDALONE */
+  #if (CHIPSET!=15)
+            {
+  #ifdef BTEMOBILE
+    #ifdef BT_UART_USED_MODEM
+             {UART_MODEM_BT_HCI,
+              DUMMY_FAX_DATA,
+              UART_IRDA_TRACE,
+              DUMMY_TRACE},    // default config (Bluetooth on Modem) - 0x014A
+    #else
+             {UART_IRDA_TRACE,
+              DUMMY_FAX_DATA,
+              UART_MODEM_TRACE,
+              DUMMY_TRACE},    // default config  (Bluetooth on IrDa) - 0x0249
+    #endif // BT_UART_USED_MODEM
+  #else // BTEMOBILE
+              {DUMMY_BT_HCI,
+               UART_MODEM_FAX_DATA,
+               UART_IRDA_TRACE,
+              DUMMY_TRACE},    // default config = 0x0168
+  #endif
+  #ifdef BTEMOBILE
+             12,	// 12 serial config allowed
+  #else // BTEMOBILE
+             9,	// 9 serial config allowed
+  #endif
+             {
+              // Configs with Condat Panel only
+              {DUMMY_BT_HCI,
+               DUMMY_FAX_DATA,
+               DUMMY_TRACE,
+               UART_IRDA_TRACE},   // 0x1048
+              {DUMMY_BT_HCI,
+               DUMMY_FAX_DATA,
+               DUMMY_TRACE,
+               UART_MODEM_TRACE},  // 0x2048
+              // Configs with L1/Riviera Trace only
+              {DUMMY_BT_HCI,
+               DUMMY_FAX_DATA,
+               UART_IRDA_TRACE,
+               DUMMY_TRACE},       // 0x0148
+              {DUMMY_BT_HCI,
+               DUMMY_FAX_DATA,
+               UART_MODEM_TRACE,
+               DUMMY_TRACE},       // 0x0248
+              // Configs with AT-Cmd only
+              {DUMMY_BT_HCI,
+               UART_MODEM_FAX_DATA,
+               DUMMY_TRACE,
+               DUMMY_TRACE},       // 0x0068
+              // Configs with Condat Panel and L1/Riviera Trace
+              {DUMMY_BT_HCI,
+               DUMMY_FAX_DATA,
+               UART_MODEM_TRACE,
+               UART_IRDA_TRACE},	 // 0x1248
+              {DUMMY_BT_HCI,
+               DUMMY_FAX_DATA,
+               UART_IRDA_TRACE,
+               UART_MODEM_TRACE},	 // 0x2148
+              // Configs with Condat Panel and AT-Cmd
+              {DUMMY_BT_HCI,
+               UART_MODEM_FAX_DATA,
+               DUMMY_TRACE,
+               UART_IRDA_TRACE},   // 0x1068
+  #ifdef BTEMOBILE
+              // Configs with L1/Riviera Trace and Bluetooth HCI
+              {UART_IRDA_BT_HCI,
+               DUMMY_FAX_DATA,
+               UART_MODEM_TRACE,
+               DUMMY_TRACE},       // 0x0249
+              {UART_MODEM_BT_HCI,
+               DUMMY_FAX_DATA,
+               UART_IRDA_TRACE,
+               DUMMY_TRACE},       // 0x014A
+              // Configs with AT-Cmd and Bluetooth HCI
+              {UART_IRDA_BT_HCI,
+               UART_MODEM_FAX_DATA,
+               DUMMY_TRACE,
+               DUMMY_TRACE},       // 0x0069
+  #endif // BTEMOBILE
+              // Configs with L1/Riviera Trace and AT-Cmd
+              {DUMMY_BT_HCI,
+               UART_MODEM_FAX_DATA,
+               UART_IRDA_TRACE,
+               DUMMY_TRACE}        // 0x0168
+             }
+            };
+  #else  /* CHIPSET==15 */
+  	{
+           {DUMMY_BT_HCI,
+            DUMMY_FAX_DATA,
+            UART_IRDA_TRACE,
+            DUMMY_TRACE}, // 0x0148
+	       3,
+	       {
+		    {DUMMY_BT_HCI,
+		 	DUMMY_FAX_DATA,
+			UART_IRDA_TRACE,
+			DUMMY_TRACE},// 0x0148
+		    {DUMMY_BT_HCI,
+		 	DUMMY_FAX_DATA,
+			DUMMY_TRACE,
+			UART_IRDA_TRACE}, // 0x1048
+		    {UART_IRDA_BT_HCI,
+		 	DUMMY_FAX_DATA,
+			DUMMY_TRACE,
+			DUMMY_TRACE}, // 0x0049
+	       }
+	};
+  #endif /* CHIPSET !=15*/
+  #endif   /* (TRACE_TYPE ...) || (OP_L1_STANDALONE == 0) */
+
+
+#if !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM !=0))
+#pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_START
+
+#if (PSP_STANDALONE == 0)
+/*
+ * HISR stack and semaphore needed by L1
+ */
+
+#if (OP_L1_STANDALONE == 0)
+  unsigned char layer_1_sync_stack[LAYER_1_SYNC_STACK_SIZE];
+#else
+  #if TESTMODE
+    char FAR layer_1_sync_stack[2600 /*3600*/];   // Frame interrupt task stack for EVA3
+  #else
+    char FAR layer_1_sync_stack[1600 /* 2600 */];   // Frame interrupt task stack for EVA3
+  #endif
+#endif   /* OP_L1_STANDALONE */
+
+NU_HISR  layer_1_sync_HISR;    // Frame interrupt task stack for EVA3
+#endif
+
+#if (CHIPSET == 12)
+
+  const T_INTH_CONFIG a_inth_config[C_INTH_NB_INTERRUPT] =
+        { // IRQ/FIQ  LEVEL/EDGE   PRIORITY   HANDLER
+        { C_INTH_IRQ, C_INTH_EDGE,   0x01,    IQ_TimerHandler             }, // 0  : WATCHDOG TIMER
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    IQ_TimerHandler1            }, // 1  : TIMER 1
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    IQ_TimerHandler2            }, // 2  : TIMER 2
+        { C_INTH_FIQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 3  : TSP RECEIVE
+        { C_INTH_IRQ, C_INTH_EDGE,   0x00,    IQ_FrameHandler             }, // 4  : TPU FRAME
+        { C_INTH_IRQ, C_INTH_EDGE,   0x04,    f_inth_dummy                }, // 5  : TPU PAGE
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 6  : SIM
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0x07,    SIM_IntHandler              }, // 6  : SIM
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    SER_uart_modem_handler      }, // 7  : UART_MODEM1
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    f_inth_dummy                }, // 8  : KEYBOARD
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    IQ_KeypadHandler            }, // 8  : KEYBOARD
+  #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0x03,    IQ_Rtc_Handler              }, // 9  : RTC_TIMER
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    IQ_RtcA_Handler             }, // 10 : RTC_ALARM
+        { C_INTH_IRQ, C_INTH_EDGE,   0x00,    IQ_Gauging_Handler          }, // 11 : ULPD_GAUGING
+        { C_INTH_IRQ, C_INTH_EDGE,   0x08,    IQ_External                 }, // 12 : ABB_IRQ
+        { C_INTH_IRQ, C_INTH_EDGE,   0x05,    f_inth_dummy                }, // 13 : SPI
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x06,    f_dma_interrupt_manager     }, // 14 : DMA
+        { C_INTH_IRQ, C_INTH_EDGE,   0x03,    IQ_ApiHandler               }, // 15 : API
+        { C_INTH_IRQ, C_INTH_EDGE,   0x07,    f_inth_dummy                }, // 16 : GPIO
+        { C_INTH_FIQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 17 : ABB_FIQ
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    SER_uart_irda_handler       }, // 18 : UART_IRDA
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    IQ_GsmTim_Handler           }, // 19 : ULPD GSM TIMER
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 20 : GEA
+#if GSM_IDLE_RAM_DEBUG
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    flash_access_handler        }, // 21 : EXTERNAL IRQ 1
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    ext_ram_access_handler      }, // 22 : EXTERNAL IRQ 2
+#else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 21 : EXTERNAL IRQ 1
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 22 : EXTERNAL IRQ 2
+#endif
+  #if (OP_L1_STANDALONE == 0)
+        { C_INTH_FIQ, C_INTH_LEVEL,  0x02,    bspUicc_Phy_intCHandler     }, // 23 : USIM Card Detect
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    bspUicc_Phy_intCHandler     }, // 24 : USIM
+  #else
+        { C_INTH_FIQ, C_INTH_LEVEL,  0x02,    f_inth_dummy                }, // 23 : USIM Card Detect
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    f_inth_dummy                }, // 24 : USIM
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 25 : LCD
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 26 : USB
+  #else
+    #ifdef RVM_USB_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x00,    usb_int_handler             }, // 26 : USB
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                },
+    #endif
+  #endif
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 27 : MMC/SD/MS
+  #else
+    #ifdef RVM_MC_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    mc_int_handler             }, // 27 : MMC/SD/MS
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                },
+    #endif
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    SER_uart_modem2_handler     }, // 28 : UART_MODEM2
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_2nd_level_handler    }, // 29 : 2nd Interrupt Handler
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    f_inth_2nd_level_handler    }, // 29 : 2nd Interrupt Handler
+  #endif
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 30 : I2C
+  #else
+    #ifdef RVM_I2C_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    i2c_hw_int_manager          }, // 30 : I2C
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                },
+    #endif
+  #endif
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 31 : NAND FLASH
+  #else
+    #ifdef RVM_NAN_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    nan_IT_handler              }, // 31 : NAND FLASH
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                },
+    #endif
+  #endif
+
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }, // 0  : RNG
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }, // 1  : SHA1/MD5
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }, // 2  : EMPU
+        { C_INTH_IRQ, C_INTH_LEVEL,   0x06,    f_dma_interrupt_manager     }, // 14 : DMA
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }  // 4  : Secure TIMER
+      };
+
+#if (GSM_IDLE_RAM != 0)
+  const T_INTH_CONFIG a_inth_config_idle_ram[C_INTH_NB_INTERRUPT] =
+        { // IRQ/FIQ  LEVEL/EDGE   PRIORITY   HANDLER
+        { C_INTH_IRQ, C_INTH_EDGE,   0x01,    ext_ram_irq_inth_handler            }, // 0  : WATCHDOG TIMER
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    ext_ram_irq_inth_handler            }, // 1  : TIMER 1
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    ext_ram_irq_inth_handler            }, // 2  : TIMER 2
+        { C_INTH_FIQ, C_INTH_EDGE,   0xFF,    ext_ram_fiq_inth_handler            }, // 3  : TSP RECEIVE
+        { C_INTH_IRQ, C_INTH_EDGE,   0x00,    IQ_FrameHandler                     }, // 4  : TPU FRAME
+        { C_INTH_IRQ, C_INTH_EDGE,   0x04,    ext_ram_irq_inth_handler            }, // 5  : TPU PAGE
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    ext_ram_irq_inth_handler            }, // 6  : SIM
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0x07,    ext_ram_irq_inth_handler            }, // 6  : SIM
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    ext_ram_irq_inth_handler            }, // 7  : UART_MODEM1
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    ext_ram_irq_inth_handler            }, // 8  : KEYBOARD
+    #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    ext_ram_irq_inth_handler            }, // 8  : KEYBOARD
+    #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0x03,    ext_ram_irq_inth_handler            }, // 9  : RTC_TIMER
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    ext_ram_irq_inth_handler            }, // 10 : RTC_ALARM
+        { C_INTH_IRQ, C_INTH_EDGE,   0x00,    IQ_Gauging_Handler                  }, // 11 : ULPD_GAUGING
+        { C_INTH_IRQ, C_INTH_EDGE,   0x08,    ext_ram_irq_inth_handler            }, // 12 : ABB_IRQ
+        { C_INTH_IRQ, C_INTH_EDGE,   0x05,    ext_ram_irq_inth_handler            }, // 13 : SPI
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x06,    ext_ram_irq_inth_handler            }, // 14 : DMA
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    ext_ram_irq_inth_handler            }, // 14 : DMA
+  #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0x03,    ext_ram_irq_inth_handler            }, // 15 : API
+        { C_INTH_IRQ, C_INTH_EDGE,   0x07,    ext_ram_irq_inth_handler            }, // 16 : GPIO
+        { C_INTH_FIQ, C_INTH_EDGE,   0xFF,    ext_ram_fiq_inth_handler            }, // 17 : ABB_FIQ
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    ext_ram_irq_inth_handler            }, // 18 : UART_IRDA
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    IQ_GsmTim_Handler                   }, // 19 : ULPD GSM TIMER
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 20 : GEA
+#if GSM_IDLE_RAM_DEBUG
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    flash_access_handler                }, // 21 : EXTERNAL IRQ 1
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    ext_ram_access_handler              }, // 22 : EXTERNAL IRQ 2
+#else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler                        }, // 21 : EXTERNAL IRQ 1
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler                        }, // 22 : EXTERNAL IRQ 2
+#endif
+        { C_INTH_FIQ, C_INTH_LEVEL,  0xFF,    ext_ram_fiq_inth_handler            }, // 23 : USIM Card Detect
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    ext_ram_irq_inth_handler            }, // 24 : USIM
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 25 : LCD
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 26 : USB
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x00,    ext_ram_irq_inth_handler            }, // 26 : USB
+  #endif
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 27 : MMC/SD/MS
+  #else
+    #ifdef RVM_MC_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    ext_ram_irq_inth_handler             }, // 27 : MMC/SD/MS
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    ext_ram_irq_inth_handler                },
+    #endif
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    ext_ram_irq_inth_handler            }, // 28 : UART_MODEM2
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 29 : 2nd Interrupt Handler
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    ext_ram_irq_inth_handler            }, // 29 : 2nd Interrupt Handler
+  #endif
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 30 : I2C
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0x01,    ext_ram_irq_inth_handler            }, // 30 : I2C
+  #endif
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 31 : NAND FLASH
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    ext_ram_irq_inth_handler            }, // 31 : NAND FLASH
+  #endif
+
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    ext_ram_irq_inth_handler           }, // 0  : RNG
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    ext_ram_irq_inth_handler           }, // 1  : SHA1/MD5
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    ext_ram_irq_inth_handler           }, // 2  : EMPU
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    ext_ram_irq_inth_handler            }, // 3  : Secure DMA
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    ext_ram_irq_inth_handler            }, // 3  : Secure  DMA
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    ext_ram_irq_inth_handler           }  // 4  : Secure TIMER
+      };
+#endif  //(GSM_IDLE_RAM != 0)
+
+#endif   /* (CHIPSET ==12) */
+
+#if (CHIPSET == 15)
+ const T_INTH_CONFIG a_inth_config[C_INTH_NB_INTERRUPT] =
+        { // IRQ/FIQ  LEVEL/EDGE   PRIORITY   HANDLER
+        { C_INTH_IRQ, C_INTH_EDGE,   0x01,    IQ_TimerHandler             }, // 0  : WATCHDOG TIMER
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    IQ_TimerHandler1            }, // 1  : TIMER 1
+        { C_INTH_IRQ, C_INTH_EDGE,   0x02,    IQ_TimerHandler2            }, // 2  : TIMER 2
+        { C_INTH_FIQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 3  : MCSI
+  #if (PSP_STANDALONE == 0)
+        { C_INTH_IRQ, C_INTH_EDGE,   0x00,    IQ_FrameHandler             }, // 4  : TPU FRAME
+  #else
+	    { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 4  : TPU FRAME
+  #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 5  : TPU PAGE
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 6  : DRP DBB
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 6  : DRP DBB
+  #endif
+		{ C_INTH_IRQ, C_INTH_LEVEL,  0x02,    SER_uart_irda_handler       }, // 7  : UART_IRDA
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 8  : KEYBOARD
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x01,    IQ_KeypadHandler            }, // 8  : KEYBOARD
+  #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 9  : DRP DBB RX
+
+    #ifdef RVM_CAMD_SWE
+
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    f_camera_interrupt_manager  }, // 10 : CAMERA
+
+   #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 10 : CAMERA
+
+    #endif
+
+  #if (PSP_STANDALONE == 0)
+        { C_INTH_IRQ, C_INTH_EDGE,   0x00,    IQ_Gauging_Handler          }, // 11 : ULPD_GAUGING
+  #else
+		{ C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 11 : ULPD_GAUGING
+  #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0x08,    IQ_External                 }, // 12 : ABB_IRQ
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 13 : MSSPI
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x06,    f_dma_interrupt_manager     }, // 14 : DMA
+  #if (PSP_STANDALONE == 0)
+        { C_INTH_IRQ, C_INTH_EDGE,   0x03,    IQ_ApiHandler               }, // 15 : API
+  #else
+	    { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 15 : API
+  #endif
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 16 : GPIO
+        { C_INTH_FIQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 17 : ABB_FIQ
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy          	  }, // 18 : DRP DBB RX
+  #if (PSP_STANDALONE == 0)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    IQ_GsmTim_Handler           }, // 19 : ULPD GSM TIMER
+  #else
+	    { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy	              }, // 19 : ULPD GSM TIMER
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 20 : GEA
+  #if GSM_IDLE_RAM_DEBUG
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 21 : GPIO1
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 22 : GPIO2
+  #else
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 21 : GPIO1
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 22 : GPIO2
+  #endif
+        { C_INTH_FIQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 23 : CPORT
+  #if(OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                }, // 24 : USIM
+  #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0x04,    bspUicc_Phy_intCHandler     }, // 24 : USIM
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 25 : LCD
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 26 : USB
+  #else
+    #ifdef RVM_USB_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    usb_int_handler             }, // 26 : USB
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                },
+    #endif
+  #endif
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 27 : not used
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    bspI2c_Handeler2		      }, // 28 : I2C TRITON
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    f_inth_2nd_level_handler    }, // 29 : 2nd Interrupt Handler
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x03,    bspI2c_Handeler1		      }, // 30 : I2C
+  #if (OP_L1_STANDALONE == 1)
+        { C_INTH_IRQ, C_INTH_LEVEL,  0xFF,    f_inth_dummy                }, // 31 : NAND FLASH
+  #else
+    #ifdef RVM_NAN_SWE
+        { C_INTH_IRQ, C_INTH_LEVEL,  0x02,    nan_IT_handler              }, // 31 : NAND FLASH
+    #else
+        { C_INTH_IRQ, C_INTH_EDGE,   0xFF,    f_inth_dummy                },
+    #endif
+  #endif
+
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }, // 0  : RNG
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }, // 1  : SHA1/MD5
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }, // 2  : EMPU
+        { C_INTH_IRQ, C_INTH_LEVEL,   0x06,    f_dma_interrupt_manager     }, // 14 : DMA
+        { C_INTH_IRQ, C_INTH_LEVEL,   0xFF,    f_inth_dummy                }  // 4  : Secure TIMER
+    };
+#endif /* CHIPSET == 15 */
+
+#pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_END
+#endif // !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM !=0))
+
+#if (CHIPSET == 12)
+  const T_DMA_TYPE_GLOBAL_PARAMETER d_dma_global_parameter=
+      {
+        #if (CHIPSET_PG == CP_PG_F751685A)
+          C_DMA_AUTO_GATE_ON,
+        #else
+          C_DMA_AUTO_GATE_OFF,
+        #endif /* endif (CHIPSET_PG == F751685A) */
+        C_DMA_API_PRIO_ARM,
+        C_DMA_RHEA_PRIO_ARM,
+        C_DMA_IMIF_PRIO_CPU_4
+      };
+
+#endif   /* (CHIPSET ==12) */
+
+#if (CHIPSET == 15)
+  const T_DMA_TYPE_GLOBAL_PARAMETER d_dma_global_parameter=
+      {
+          C_DMA_AUTO_GATE_ON,
+          C_DMA_API_PRIO_ARM,
+          C_DMA_RHEA_PRIO_ARM,
+          C_DMA_IMIF_PRIO_CPU_4,
+          C_DMA_IPERIF_PRIO_CPU_4,  // set same as the IMIF priority. Actual value need to decided
+          C_DMA_EMIF_DMA_PRIO_7,        // Actual value need to be decided
+          C_DMA_EMIF_MCU_PRIO_5         // Actual value need to be decided
+      };
+
+#endif
+
+
+#if (GSM_IDLE_RAM != 0)
+
+  #define IRQ_STACK_SIZE  128
+  #pragma DATA_SECTION(irq_stack,".irqstk");
+  UWORD32 irq_stack[IRQ_STACK_SIZE/4];
+  const UWORD32 irq_stack_size = IRQ_STACK_SIZE;
+
+  #define FIQ_STACK_SIZE  512
+  #pragma DATA_SECTION(fiq_stack,".fiqstk");
+  UWORD32 fiq_stack[FIQ_STACK_SIZE/4];
+  const UWORD32 fiq_stack_size = FIQ_STACK_SIZE;
+
+  #define SVC_STACK_SIZE  1024
+  #pragma DATA_SECTION(svc_stack,".svcstk");
+  UWORD32 svc_stack[SVC_STACK_SIZE/4];
+  const UWORD32 svc_stack_size = SVC_STACK_SIZE;
+
+  #define TIMER_HISR_STACK_SIZE  1024
+  #pragma DATA_SECTION(timer_hisr_stack,".timstk");
+  UWORD32 timer_hisr_stack[TIMER_HISR_STACK_SIZE/4];
+  const UWORD32 timer_hisr_stack_size = TIMER_HISR_STACK_SIZE;
+#endif
+
+/* HISR_STACK_SHARING: Create global stacks to be used by all HISRs
+ * having the same priority */
+
+
+
+#if (CODE_VERSION != SIMULATION)
+/*
+ * Init_Target
+ *
+ * Performs low-level HW Initialization.
+ */
+void Init_Target(void)
+{
+
+	
+  #if (BOARD==70)|| (BOARD==71)
+  /* Variable for reading the BCR for MCP RAM */
+  unsigned short bcrTmpVal;
+  #endif
+ (*(volatile Uint16 *) 0xFFFF702A) = 0x0002;//reset the UART module.
+#if (CHIPSET == 15)
+        char detect_code[80];
+        typedef void (*pf_t)(UWORD32, UWORD16 *, UWORD16 *);
+	extern void ffsdrv_device_id_read(UWORD32 base_addr, UWORD16 *manufact, UWORD16 *device);
+        pf_t myfp;
+	UWORD16 manufact;
+        UWORD16 device_id[3];
+
+#endif
+  #if (BOARD == 5)
+    #define WS_ROM  (1)
+    #define WS_RAM  (1)
+    #define WS_APIF (1)
+    #define WS_CS2  (7) /* LCD on EVA3. */
+    #define WS_CS0  (7) /* DUART on EVA3. UART16750 and latch on A-Sample. */
+    #define WS_CS1  (7) /* LCD on A-Sample. */
+
+    IQ_InitWaitState (WS_ROM, WS_RAM, WS_APIF, WS_CS2, WS_CS0, WS_CS1);
+    IQ_InitClock (2); /* Internal clock division factor. */
+
+    IQ_MaskAll (); /* Mask all interrupts. */
+    IQ_SetupInterrupts (); /* IRQ priorities. */
+
+    TM_DisableWatchdog ();
+
+    /*
+     * Reset all TSP and DBG fdefault values
+     */
+
+    AI_ResetTspIO ();
+    AI_ResetDbgReg ();
+    AI_ResetIoConfig ();
+
+    /*
+     * Warning! The external reset signal is connected to the Omega and the
+     * external device. If the layer 1 is used its initialization removes
+     * the external reset. If the application does not use the layer 1
+     * you must remove the external reset (bit 2 of the reset control
+     * register 0x505808).
+     */
+
+    AI_ResetTspIO();
+    AI_ResetDbgReg();
+    AI_ResetIoConfig();
+
+    /*
+     * Configure all IOs (see RD300 specification).
+     */
+
+    AI_ConfigBitAsInput (1);
+    AI_EnableBit (1);
+
+    AI_ConfigBitAsOutput (2);
+    AI_EnableBit (2);
+
+    AI_ConfigBitAsInput (11);
+    AI_EnableBit (11);
+
+    AI_ConfigBitAsOutput (13);
+    AI_EnableBit (13);
+
+    AI_Power (1); /* Maintain power supply. */
+
+  #elif (BOARD == 6) || (BOARD == 7) || (BOARD == 8) || (BOARD == 9) || \
+        (BOARD == 40) || (BOARD == 41) || (BOARD == 42) || (BOARD == 43) || (BOARD == 45) || \
+        (BOARD == 35) || (BOARD == 46) || (BOARD == 70) || (BOARD == 71)
+
+#if (PSP_STANDALONE == 0)
+    // RIF/SPI rising edge clock for ULYSSE
+    //--------------------------------------------------
+    #if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3)|| (ANLG_FAM == 11))
+      #if ((CHIPSET >= 3))
+        #if (CHIPSET == 12)
+          F_CONF_RIF_RX_RISING_EDGE;
+          F_CONF_SPI_RX_RISING_EDGE;
+        #elif (CHIPSET == 15)
+	     //do the DRP init here for Locosto
+	     #if (L1_DRP == 1)
+	     //  drp_power_on(); This should be done after the script is downloaded.
+	     #endif
+        #else
+          #if (BOARD==35)
+            *((volatile SYS_UWORD16 *) ASIC_CONF) = 0x2000;
+          #else
+            *((volatile SYS_UWORD16 *) ASIC_CONF) = 0x6000;
+          #endif   /* (BOARD == 35) */
+        #endif
+      #endif
+    #endif   /* ANLG(ANALOG)) */
+
+    #if (OP_L1_STANDALONE == 1)
+      #if (BOARD == 40) || (BOARD == 41) || \
+            (BOARD == 42) || (BOARD == 43) || (BOARD == 45)
+        // enable 8 Ohm amplifier for audio on D-sample
+        AI_ConfigBitAsOutput (1);
+        AI_SetBit(1);
+      #elif (BOARD == 70) || (BOARD == 71)
+	  //Locosto I-sample or UPP costo board.BOARD
+	  // Initialize the ARMIO bits as per the I-sample spec
+	  // FIXME
+      #endif
+    #endif   /* (OP_L1_STANDALONE == 1) */
+#endif /* PSP_STANDALONE ==0 */
+
+    // Watchdog
+    //--------------------------------------------------
+    TM_DisableWatchdog();    /* Disable Watchdog */
+    #if (CHIPSET == 12) || (CHIPSET == 15)
+      TM_SEC_DisableWatchdog();
+    #endif
+
+    #if ((CHIPSET == 4) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12) || (CHIPSET == 15))
+
+      #if (CHIPSET == 12)
+
+        #if 0   /* example of configuration for DMA debug */
+          #if (BOARD == 6)  /* debug on EVA 4 , GPO2 must not be changed */
+
+            /*  TPU_FRAME, NMIIT, IACKn  */
+            F_DBG_IRQ_CONFIG(C_DBG_IRQ_IRQ4|C_DBG_IRQ_NMIIT|C_DBG_IRQ_IACKN);
+
+            /*  NDMA_REQ_VIEW1, NDMA_REQ_VIEW0, DMA_V(1), DMA_S(1), DMAREQ_P1(3:0)*/
+            F_DBG_DMA_P1_NDFLASH_CONFIG(C_DBG_DMA_P1_NDFLASH_NDMA_REQ_VIEW_1  |
+                                        C_DBG_DMA_P1_NDFLASH_NDMA_REQ_VIEW_0  |
+                                        C_DBG_DMA_P1_NDFLASH_DMA_REQ_P1_3     |
+                                        C_DBG_DMA_P1_NDFLASH_DMA_REQ_P1_2     |
+                                        C_DBG_DMA_P1_NDFLASH_DMA_REQ_P1_1     |
+                                        C_DBG_DMA_P1_NDFLASH_DMA_REQ_P1_0     |
+                                        C_DBG_DMA_P1_NDFLASH_DMA_REQ_S_1      |
+                                        C_DBG_DMA_P1_NDFLASH_DMA_REQ_V1       );
+            /*  DMA_REQ_S(2)*/
+            F_DBG_DMA_P2_CONFIG(C_DBG_DMA_P2_DMA_REQ_S2);
+
+            /*  DMA_CLK_REQ, BRIDGE_CLK */
+            F_DBG_CLK1_CONFIG(C_DBG_CLK1_DMA_CLK_REQ  |
+                              C_DBG_CLK1_BRIDGE_CLK   );
+
+            /*  XIO_nREADY */
+            F_DBG_IMIF_CONFIG(C_DBG_IMIF_XIO_NREADY_MEM);
+
+            /* DSP_nIRQ_VIEW1, DSP_nIRQ_VIEW0, BRIDGE_EN */
+            F_DBG_KB_USIM_SHD_CONFIG(C_DBG_KB_USIM_SHD_DSP_NIRQ_VIEW_1  |
+                                     C_DBG_KB_USIM_SHD_DSP_NIRQ_VIEW_0  |
+                                     C_DBG_KB_USIM_SHD_BRIDGE_EN        );
+
+            /* RHEA_nREADY , RHEA_nSTROBE */
+            F_DBG_USIM_CONFIG(C_DBG_USIM_RHEA_NSTROBE |
+                              C_DBG_USIM_RHEA_NREADY  );
+
+            /* XIO_STROBE */
+            F_DBG_MISC2_CONFIG(C_DBG_MISC2_X_IOSTRBN);
+
+            /* DMA_CLK_REQ */
+            F_DBG_CLK2_CONFIG(C_DBG_CLK2_DMA_CLK_REQ2);
+
+            /* DSP_IRQ_SEL0=DMA, DSP_IRQ_SEL1=DMA, DMA_REQ_SEL0=RIF_RX, DMA_REQ_SEL1=RIF_RX */
+            F_DBG_VIEW_CONFIG(0,0,C_DBG_DSP_INT_DMA,
+                                  C_DBG_DSP_INT_DMA,
+                                  C_DMA_CHANNEL_RIF_RX,
+                                  C_DMA_CHANNEL_RIF_RX);
+
+          #endif   /* (BOARD == 6) */
+        #endif   /* DMA debug example */
+      #else
+        /*
+         *  Configure ASIC in order to output the DPLL and ARM clock
+         */
+       // (*( volatile UWORD16* )(0xFFFEF008)) = 0x8000; // DPLL
+       // (*( volatile UWORD16* )(0xFFFEF00E)) = 0x0004; // ARM clock
+       // (*( volatile UWORD16* )(0xfffef004)) = 0x0600; // DSP clock + nIACK
+      #endif   /* (CHIPSET == 12) || CHIPSET == 15*/
+
+
+      /*
+       *  Enable/Disable of clock switch off for INTH, TIMER, BRIDGE and DPLL modules
+       */
+      // IRQ, Timer and bridge may SLEEP
+      // In first step, same configuration as SAMSON
+      //--------------------------------------------------
+      #if (CHIPSET == 12)
+        CLKM_INITCNTL(CLKM_IRQ_DIS | CLKM_TIMER_DIS | CLKM_BRIDGE_DIS | CLKM_DPLL_DIS);
+	  #elif (CHIPSET == 15)
+CLKM_INITCNTL(CLKM_IRQ_DIS | CLKM_TIMER_DIS | CLKM_CPORT_EN | CLKM_BRIDGE_DIS | 0x8000 ); /* CLKM_DPLL_DIS is remove by Ranga*/
+
+      #else
+        CLKM_INITCNTL(CLKM_IRQ_DIS | CLKM_TIMER_DIS);
+
+        // Select VTCXO input frequency
+        //--------------------------------------------------
+        CLKM_UNUSED_VTCXO_26MHZ;
+
+        // Rita RF uses 26MHz VCXO
+        #if (RF_FAM == 12)
+          CLKM_USE_VTCXO_26MHZ;
+        #endif
+        // Renesas RF uses 26MHz on F-sample but 13MHz on TEB
+        #if (RF_FAM == 43) && (BOARD == 46)
+          CLKM_USE_VTCXO_26MHZ;
+        #endif
+      #endif
+
+	  #if (CHIPSET ==15)
+ 	 //Enable APLL
+ 	 *((volatile unsigned short *) (C_MAP_CLKM_BASE+0x10)) = 0x01|0x6;
+	 // UART Clock from APLL
+	 *((volatile unsigned short *) CLKM_CNTL_CLK_PROG_FREE_RUNN) = 0x0001;
+         (*(volatile Uint16 *) 0xFFFF702A) = 0x0002;//reset the UART module.
+	  
+	#endif
+
+
+
+
+	 //
+      // Control HOM/SAM automatic switching
+      //--------------------------------------------------
+      *((volatile unsigned short *) CLKM_CNTL_CLK) &= ~CLKM_EN_IDLE3_FLG;
+
+      /*
+       *  Disable and Clear all pending interrupts
+       */
+      #if (CHIPSET == 12) || (CHIPSET == 15)
+        F_INTH_DISABLE_ALL_IT;           // MASK all it
+        F_INTH2_VALID_NEXT(C_INTH_IRQ);  // reset current IT in INTH2 IRQ
+        F_INTH_VALID_NEXT(C_INTH_IRQ);   // reset current IT in INTH IRQ
+        F_INTH_VALID_NEXT(C_INTH_FIQ);   // reset current IT in INTH FIQ
+        F_INTH_RESET_ALL_IT;             // reset all IRQ/FIQ source
+      #else
+        INTH_DISABLEALLIT;
+        INTH_RESETALLIT;
+        INTH_CLEAR;                 /* reset IRQ/FIQ source */
+      #endif
+
+      #if (CHIPSET == 12)
+        /* API-RHEA control register configuration */
+        f_memif_init_api_rhea_ctrl(C_MEMIF_API_RHEA_ADAPT,
+                                   C_MEMIF_API_RHEA_ADAPT,
+                                   C_MEMIF_API_RHEA_ADAPT,
+                                   C_MEMIF_API_RHEA_NO_DEBUG);
+
+        #if ((BOARD == 43) || (BOARD == 45))
+          // if Esample,Evaconso active extended page mode
+          // With Calypso+ chipset, extended page mode can be enabled
+          // only if W_A_CALYPSO_PLUS_SPR_19599 is set to one in l1_confg.h.
+          // see L1_MCU-SPR-17515 and L1_MCU-SPR-19599 for more information
+          f_memif_extended_page_mode_enable();
+	    #endif
+      #endif   /* (CHIPSET == 12) */
+
+	  #if (CHIPSET == 15)
+        /* API-RHEA control register configuration */
+        f_emif_api_rhea_conf(C_RHEA_STROBE0_ACCESS_SIZE_ADAPT_ENABLE,
+                             C_RHEA_STROBE1_ACCESS_SIZE_ADAPT_ENABLE,
+                             C_API_ACCESS_SIZE_ADAPT_ENABLE,
+                             C_ARM_DEBUG_DISABLE);
+        #if (BOARD == 70) || (BOARD == 71)
+	      // set the EMIF settings here for locosto
+	      // We could have the default settings here and
+	      // then change it after dynamic clock config
+	      /* MCP RAM Setting Is being done here */
+#if 0 /* This is commented out by Ranga */
+		#if (PSP_FAILSAFE!=1)
+		  bcrTmpVal = *((volatile unsigned char *)0x007FFFFFE);
+		  bcrTmpVal +=1;
+		  bcrTmpVal = *((volatile unsigned char *)0x007FFFFFE);
+		  *((volatile unsigned char *)0x007FFFFFE)=0x0001;
+		  *((volatile unsigned char *)0x007FFFFFE)=0x1542;
+
+		  /* Setting NOR Flash to these 3 Wait State */
+		  *((volatile char *)0x06000AAA)=0xAA;
+		  *((volatile char *)0x06000555)=0x55;
+		  *((volatile char *)0x06016AAA)=0xC0;
+        #endif
+#endif
+	    #endif
+      #endif   /* (CHIPSET == 15) */
+
+
+      /*
+       * Initialize current DSP clock to 0 in order to pass through
+       * the right DSP latency configuration (increase DSP clock)
+       * in f_dynamic_clock_cfg().
+       * Obviously, the real DSP clock is not 0kHz.
+       * d_dsp_cur_clk will be updated after clock configuration in f_dynamic_clock_cfg().
+       */
+      d_dsp_cur_clk = 0;   // Used to keep track of current DSP clock.
+
+      /* Dynamic clock configuration */
+      f_dynamic_clock_cfg(C_CLOCK_CFG_DEFAULT);
+
+      // Write_en_0 = 0 , Write_en_1 = 0
+      RHEA_INITARM(0,0);
+
+	  #if (CHIPSET ==15)
+	  // Mark USB on 52 MHZ Clock
+	  *((volatile unsigned short *) (CLKM_CNTL_CLK_USB)) = 0x02;
+	  #endif
+
+      #if (CHIPSET == 12) || ((CHIPSET == 10) && (OP_WCP == 1))
+        /* Allocate the 0.5 Mbits Shared RAM to the DSP */
+        f_memif_shared_sram_allocation(C_MEMIF_DSPMS_0_5MBITS_TO_DSP);
+      #endif
+
+      // INTH
+      //--------------------------------------------------
+      #if (CHIPSET == 12) || (CHIPSET == 15)
+        #if (GSM_IDLE_RAM != 0)
+          f_inth_setup((T_INTH_CONFIG *)a_inth_config_idle_ram);   // setup configuration IT handlers
+        #else
+          f_inth_setup((T_INTH_CONFIG *)a_inth_config);   // setup configuration IT handlers
+        #endif
+      #else
+        IQ_SetupInterrupts();
+      #endif
+
+
+      #if (CHIPSET == 12) || (CHIPSET == 15)
+      #if (OP_L1_STANDALONE == 0)
+
+        f_dma_global_parameter_set((T_DMA_TYPE_GLOBAL_PARAMETER *)&d_dma_global_parameter);
+      #endif
+        f_dma_channel_allocation_set(C_DMA_CHANNEL_0, C_DMA_CHANNEL_DSP);
+     #if (OP_L1_STANDALONE == 1)
+        f_dma_global_parameter_set((T_DMA_TYPE_GLOBAL_PARAMETER *)&d_dma_global_parameter);
+        f_dma_channel_allocation_set(C_DMA_CHANNEL_0, C_DMA_CHANNEL_DSP);
+     #endif
+
+      #else
+        // DMA
+        //--------------------------------------------------
+        // channel0 = Arm, channel1 = Lead, channel2 = forced to Arm, channel3=forced to Arm, dma_burst = 0001, priority = same
+      #if (OP_L1_STANDALONE == 0)
+        DMA_ALLOCDMA(1,0,1,1);  // Channel 1 used by DSP with RIF RX
+      #endif
+      #endif
+
+      /* CHIPSET = 4 or 7 or 8 or 10 or 11 or 12 */
+
+    #else
+
+      // RHEA Bridge
+      //--------------------------------------------------
+      // ACCES_FAC_0 = 0, ACCES_FAC_1 = 0 ,TIMEOUT = 0x7F
+      RHEA_INITRHEA(0,0,0x7F);
+
+      #if (CHIPSET == 6)
+        // WS_H = 1 , WS_L = 15
+        RHEA_INITAPI(1,15);          // should be 0x01E1 for 65 Mhz
+      #else
+        // WS_H = 0 , WS_L = 7
+        RHEA_INITAPI(0,7);           // should be 0x0101 for 65 Mhz
+      #endif
+
+      // Write_en_0 = 0 , Write_en_1 = 0
+      RHEA_INITARM(0,0);
+
+      // INTH
+      //--------------------------------------------------
+      INTH_DISABLEALLIT;          // MASK all it
+      INTH_CLEAR;                 // reset IRQ/FIQ source
+      IQ_SetupInterrupts();
+
+      // DMA
+      //--------------------------------------------------
+      // channel0 = Arm, channel1 = Lead, dma_burst = 0001, priority = same
+      DMA_ALLOCDMA(1,0,1,1);      // should be 0x25   (channel 1 = lead)
+
+      #if (CHIPSET == 6)
+        // Memory WS configuration for ULYSS/G1 (26 Mhz) board
+        //-----------------------------------------------------
+        MEM_INIT_CS2(2,MEM_DVS_16,MEM_WRITE_EN,0);
+      #endif
+
+      // CLKM
+      //--------------------------------------------------
+      CLKM_InitARMClock(0x00, 2); /* no low freq, no ext clock, div by 1 */
+
+      #if (CHIPSET == 6)
+        CLKM_INITCNTL(CLKM_IRQ_DIS | CLKM_BRIDGE_DIS | CLKM_TIMER_DIS | CLKM_VTCXO_26);
+      #else
+        CLKM_INITCNTL(CLKM_IRQ_DIS | CLKM_BRIDGE_DIS | CLKM_TIMER_DIS);
+      #endif
+
+    #endif   /* CHIPSET = 4 or 7 or 8 or 10 or 11 or 12 */
+
+    // Freeze ULPD timer ....
+    //--------------------------------------------------
+    *((volatile SYS_UWORD16 *) ULDP_GSM_TIMER_INIT_REG ) = 0;
+    *((volatile SYS_UWORD16 *) ULDP_GSM_TIMER_CTRL_REG ) = TPU_FREEZE;
+
+    // reset INC_SIXTEEN and INC_FRAC
+    //--------------------------------------------------
+    #if (OP_L1_STANDALONE == 1)
+      l1ctl_pgm_clk32(DEFAULT_HFMHZ_VALUE,DEFAULT_32KHZ_VALUE);
+    #else
+      ULDP_INCSIXTEEN_UPDATE(132);    //32768.29038  =>132, 	32500 => 133
+                                      // 26000 --> 166
+      ULDP_INCFRAC_UPDATE(15840);     //32768.29038  =>15840,	32500 => 21845
+                                      // 26000 --> 43691
+    #endif   /*  OP_L1_STANDALONE */
+
+    // program ULPD WAKE-UP ....
+    //=================================================
+    #if (CHIPSET == 2)
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_FRAME_REG)  = SETUP_FRAME;  // 2 frame
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_VTCXO_REG)  = SETUP_VTCXO;  // 31 periods
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_SLICER_REG) = SETUP_SLICER; // 31 periods
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_CLK13_REG)  = SETUP_CLK13;  // 31 periods
+    #else
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_FRAME_REG)  = SETUP_FRAME;  // 3 frames
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_VTCXO_REG)  = SETUP_VTCXO;  // 0 periods
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_SLICER_REG) = SETUP_SLICER; // 31 periods
+       *((volatile SYS_UWORD16 *)ULDP_SETUP_CLK13_REG)  = SETUP_CLK13;  // 31 periods
+       *((volatile SYS_UWORD16 *)ULPD_SETUP_RF_REG)     = SETUP_RF;     // 31 periods
+    #endif
+
+    #if (CHIPSET == 15)
+      *((volatile SYS_UWORD16 *)ULPD_DCXO_SETUP_SLEEPN)    = SETUP_SLEEPZ;    // 0
+      *((volatile SYS_UWORD16 *)ULPD_DCXO_SETUP_SYSCLKEN)  = SETUP_SYSCLKEN;  // 255 clocks of 32 KHz for 7.8 ms DCXO delay for Locosto
+	  *((volatile SYS_UWORD16 *)0xFFFEF192) = 0x1; //CLRZ
+  	  *((volatile SYS_UWORD16 *)0xFFFEF190) = 0x2; //SLPZ
+	  *((volatile SYS_UWORD16 *)0xFFFEF18E)= 0x2; //SYSCLKEN
+	  *((volatile SYS_UWORD16 *)0xFFFEF186) = 0x2; //CLK13_EN
+	  *((volatile SYS_UWORD16 *)0xFFFEF18A) = 0x2; //DRP_DBB_SYSCLK
+
+
+
+
+    #endif
+
+    // Set Gauging versus HF (PLL)
+    //=================================================
+    ULDP_GAUGING_SET_HF;                // Enable gauging versus HF
+    ULDP_GAUGING_HF_PLL;                // Gauging versus PLL
+
+    // current supply for quartz oscillation
+    //=================================================
+    #if (OP_L1_STANDALONE == 1)
+      #if ((CHIPSET != 9) && (CHIPSET != 12) && (CHIPSET !=15)) // programming model changed for Ulysse C035, stay with default value
+        *(volatile SYS_UWORD16 *)QUARTZ_REG  = 0x27;
+      #endif
+    #else
+      #if ((BOARD == 6) || (BOARD == 8) || (BOARD == 9) || (BOARD == 35) || (BOARD == 40) || (BOARD == 41))
+        *((volatile SYS_UWORD16 *)QUARTZ_REG)  = 0x27;
+      #elif (BOARD == 7)
+        *((volatile SYS_UWORD16 *)QUARTZ_REG)  = 0x24;
+      #endif
+    #endif   /* OP_L1_STANDALONE */
+
+    // stop Gauging if any (debug purpose ...)
+    //--------------------------------------------------
+    if ( *((volatile SYS_UWORD16 *) ULDP_GAUGING_CTRL_REG) & ULDP_GAUGING_EN)
+    {
+      volatile UWORD32 j;
+      ULDP_GAUGING_STOP; /* Stop the gauging */
+      /* wait for gauging it*/
+      // one 32khz period = 401 periods of 13Mhz
+      for (j=1; j<50; j++);
+      while (! (* (volatile SYS_UWORD16 *) ULDP_GAUGING_STATUS_REG) & ULDP_IT_GAUGING);
+    }
+
+    #if (OP_L1_STANDALONE == 0)
+      AI_ClockEnable ();
+
+      #if (BOARD == 7)
+        // IOs configuration of the B-Sample in order to optimize the power consumption
+        AI_InitIOConfig();
+
+        // Set LPG instead of DSR_MODEM
+        *((volatile SYS_UWORD16 *) ASIC_CONF) |= 0x40;
+        // Reset the PERM_ON bit of LCR_REG
+        *((volatile SYS_UWORD16 *) MEM_LPG) &= ~(0x80);
+      #elif ((BOARD == 8) || (BOARD == 9))
+        // IOs configuration of the C-Sample in order to optimize the power consumption
+        AI_InitIOConfig();
+
+        // set the debug latch to 0x00.
+        *((volatile SYS_UWORD8 *) 0x2800000) = 0x00;
+      #elif ((BOARD == 35) || (BOARD == 46))
+        AI_InitIOConfig();
+        // CSMI INTERFACE
+        // Initialize CSMI clients for GSM control
+        // and Fax/Data services
+          CSMI_Init();
+          GC_Initialize();  // GSM control initialization
+          CU_Initialize();  // Trace initialization
+          CF_Initialize();  // Fax/Data pre-initialization
+      #elif ((BOARD == 40) || (BOARD == 41))
+        // IOs configuration of the D-Sample in order to optimize the power consumption
+        AI_InitIOConfig();
+
+        #ifdef BTEMOBILE
+          // Reset BT chip by toggling the Island's nRESET_OUT signal
+          *((volatile SYS_UWORD16 *) 0xFFFFFD04) |= 0x04;
+          *((volatile SYS_UWORD16 *) 0xFFFFFD04) &= ~(0x4);
+        #endif
+
+        // set the debug latch to 0x0000.
+ 	    *((volatile SYS_UWORD16 *) 0x2700000) = 0x0000;
+      #elif ((BOARD == 70) || (BOARD == 71))
+	    AI_InitIOConfig();
+	    /* Mark The System configuration According to I-Sample */
+		/* Adding GPIO Mux Setting Here */
+		pin_configuration_all(); // Init Tuned for Power Management
+		/* A22 is Enabled in int.s hence not Here */
+		/* FIXME: PULL_UP Enable and PULL UP Values Need to revisited */
+
+	/* Add code to find out the manufacture id of NOR flash*/
+
+        // Copy ffsdrv_device_id_read() function code to RAM. The only known
+        // way to determine the size of the code is to look either in the
+        // linker-generated map file or in the assember output file.
+        ffsdrv_copy_code_to_ram((UWORD16 *) detect_code,
+                                (UWORD16 *) &ffsdrv_device_id_read,
+                                sizeof(detect_code));
+
+        // Combine bit 0 of the thumb mode function pointer with the address
+        // of the code in RAM. Then call the detect function in RAM.
+        myfp = (pf_t) (((int) &ffsdrv_device_id_read & 1) | (int) detect_code);
+        (*myfp)(0x06000000, &manufact, device_id);
+
+	enable_ps_ram_burst();
+
+	if( 0x7e == device_id[0] )
+	{
+	   enable_flash_burst();
+	   flash_device_id = 0x7E;
+	}
+	else
+	{
+	   enable_flash_burst_mirror();
+   	   flash_device_id = 0;
+	}
+
+
+	 asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+
+#if 0	// Init Changed for tuning to Power Management	 -Old Init Commented
+		/* Ball N9 Mapped to TSPACT_8 (TPU) */
+		F_IO_CONFIG(C_CONF_GPIO_5,C_CONF_PUPD_EN|0x01);
+		/* Ball A6 ND_WE */
+		F_IO_CONFIG(C_CONF_GPIO_18,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* Ball C2 ND_RDY */
+		F_IO_CONFIG(C_CONF_GPIO_34,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* Ball C3 ND_RE */
+		F_IO_CONFIG(C_CONF_GPIO_31,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL E5 CAM_D_4 */
+		F_IO_CONFIG(C_CONF_ND_NWP,0x02);
+		/* BALL F6 ND_CLE */
+		F_IO_CONFIG(C_CONF_GPIO_32,C_CONF_PUPD_EN|0x01);
+		/* BALL H8 ND_ALE */
+		F_IO_CONFIG(C_CONF_GPIO_33,C_CONF_PUPD_EN|0x01);
+		/* BALL E10 LCD_NCS0 */
+		F_IO_CONFIG(C_CONF_GPIO_13,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL C11 GPIO_10 */
+		F_IO_CONFIG(C_CONF_GPIO_10,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL D10 GPIO_11 */
+		F_IO_CONFIG(C_CONF_GPIO_11,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL M6 CAM_D_1 */
+		F_IO_CONFIG(C_CONF_GPIO_0,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x02);
+		/* BALL N5 CAM_D_0 */
+		F_IO_CONFIG(C_CONF_GPIO_47,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x02);
+		/* BALL A5 CAM_LCLK */
+		F_IO_CONFIG(C_CONF_GPIO_21,0x01);
+		/* BALL C6 CAM_XCLK */
+		F_IO_CONFIG(C_CONF_GPIO_22,0x01);
+		/* BALL E7 CAM_VS */
+		F_IO_CONFIG(C_CONF_GPIO_20,0x01);
+		/* BALL F8 CAM_HS */
+		F_IO_CONFIG(C_CONF_GPIO_19,0x01);
+		/* BALL K7 MCSI_TX */
+		F_IO_CONFIG(C_CONF_GPIO_45,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL M5 MCSI_FS */
+		F_IO_CONFIG(C_CONF_GPIO_44,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL N3 MCSI_CK */
+		F_IO_CONFIG(C_CONF_GPIO_43,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL P2 MCSI_RX */
+		F_IO_CONFIG(C_CONF_GPIO_46,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL B11 TSPACT_10 */
+		F_IO_CONFIG(C_CONF_GPIO_12,C_CONF_PUPD_EN|0x01);
+		/* BALL B3 CAM_D_5 */
+		F_IO_CONFIG(C_CONF_GPIO_30,C_CONF_PUPD_EN|0x03);
+		/* BALL C4 CAM_D_7 */
+		F_IO_CONFIG(C_CONF_GPIO_28,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x03);
+		/* BALL C5 SPI_DATA_MOSI */
+		F_IO_CONFIG(C_CONF_GPIO_25,C_CONF_PUPD_EN|0x01);
+		/* BALL E6 SPI_NCS0 */
+		F_IO_CONFIG(C_CONF_GPIO_26,C_CONF_PUPD_EN|0x01);
+		/* BALL F7 SPI_DATA_MIS0 */
+		F_IO_CONFIG(C_CONF_GPIO_24,C_CONF_PUPD_EN|0x03);
+		/* BALL G6 CAM_D_2 */
+		F_IO_CONFIG(C_CONF_GPIO_7,C_CONF_PUPD_EN|0x05);
+		/* BALL G7 CAM_D_6 */
+		F_IO_CONFIG(C_CONF_GPIO_29,C_CONF_PUPD_EN|0x03);
+		/* BALL G8 SPI_NCS1 */
+		F_IO_CONFIG(C_CONF_GPIO_27,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+		/* BALL G9 SPI_CLK */
+		F_IO_CONFIG(C_CONF_GPIO_23,C_CONF_PUPD_EN|0x01);
+		/* BALL L6 CKM */
+		F_IO_CONFIG(C_CONF_GPIO_42,C_CONF_PUPD_VAL|C_CONF_PUPD_EN|0x01);
+
+		/*By default the muxed bus is given to LCD*/
+		C_CONF_LCD_CAM_NAN_REG=0x03;
+
+#endif // for #if 0 	Init Changed for Power Management
+      #endif // BOARD
+
+      // Enable HW Timers 1 & 2
+      TM_EnableTimer (1);
+      TM_EnableTimer (2);
+
+      	 asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+ 	 asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+	 asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+         asm(" NOP");
+    #endif  /* (OP_L1_STANDALONE == 0) */
+
+  #endif   /* #if (BOARD == 5) */
+#if(OP_L1_STANDALONE == 1 && MIRROR_BIT == 1 ) //temp FIX for L1 standalone-this fix will work only for I-sample mirror bit
+//#if(OP_L1_STANDALONE == 1 )
+	 //AI_InitIOConfig();
+	 //pin_configuration_all(); // Init Tuned for Power Management
+  	 //enable_ps_ram_burst();
+	 //enable_flash_burst_mirror();
+   	 flash_device_id = 0;
+	 //asm(" NOP");
+         //asm(" NOP");
+         //asm(" NOP");
+         //asm(" NOP");
+         //asm(" NOP");
+         //asm(" NOP");
+         //asm(" NOP");
+        //asm(" NOP");
+#elif(OP_L1_STANDALONE == 1 && MIRROR_BIT == 0 )
+	 flash_device_id = 0x7E;
+#endif
+
+
+  #if GSM_IDLE_RAM_DEBUG
+  #if (CHIPSET!=15)
+        *((volatile SYS_UWORD16 *) 0xFFFE4806) = (0x0020);
+        AI_ConfigBitAsOutput(3);
+        AI_ConfigBitAsOutput(2);
+  #endif
+  #endif
+  #if (CHIPSET==15)
+  	{
+  	volatile unsigned int * configReg=(volatile unsigned int *)0xFFFEF01C;
+	*configReg &= 0xF7FF;
+  	}
+  #endif
+
+}
+
+//--> Init Added for Power Management
+/*******************************************************
+	Configure ALL I/O pins
+*******************************************************/
+void pin_configuration_all(void)
+{
+	pin_configuration_bluetooth();
+	pin_configuration_emifs();
+	pin_configuration_system();
+	pin_configuration_lcd_nand(0);
+	pin_configuration_keypad();
+	pin_configuration_sim();
+	pin_configuration_radio();
+	pin_configuration_usb();
+	pin_configuration_camera_irda(1);
+}
+
+/*******************************************************
+	Configure Bluetooth I/O pins
+*******************************************************/
+void pin_configuration_bluetooth(void)
+{
+	GPIO_DIRECTION_OUT(37);	GPIO_CLEAR_OUTPUT(37);	// BT_nSHUTDOWN
+	CONF_GPIO_43	 = MUX_CFG(1, PULLOFF);	// MCSI_CK
+	CONF_GPIO_44	 = MUX_CFG(1, PULLOFF);	// MCSI_FS
+	CONF_GPIO_45	 = MUX_CFG(1, PULLOFF);	// MCSI_TX
+	CONF_GPIO_46	 = MUX_CFG(1, PULLOFF);	// MCSI_RX
+	CONF_UART_CTS	 = MUX_CFG(0, PULLOFF);	// CTS
+	CONF_UART_RX	 = MUX_CFG(0, PULLOFF);	// RX
+	CONF_UART_TX	 = MUX_CFG(0, PULLOFF);	// TX
+	CONF_GPIO_37	 = MUX_CFG(0, PULLOFF); // BT_SHUTDOWN
+}
+
+/*******************************************************
+	Configure EMIFS I/O pins
+*******************************************************/
+void pin_configuration_emifs(void)
+{
+	CONF_ADD_21	 = MUX_CFG(0, PULLOFF);	// ADD21
+	CONF_GPIO_39	 = MUX_CFG(1, PULLOFF); // ADD22
+	CONF_GPIO_38	 = MUX_CFG(0, PULLOFF); // nCS0
+	CONF_NCS3	 = MUX_CFG(0, PULLOFF);	// nCS3
+	CONF_ADV	 = MUX_CFG(0, PULLOFF);	// ADV
+	CONF_NMOE	 = MUX_CFG(0, PULLOFF);	// nMOE
+	CONF_RNW	 = MUX_CFG(0, PULLOFF);	// RnW
+	CONF_GPIO_42	 = MUX_CFG(1, PULLOFF); // CKM
+	CONF_NRDY	 = MUX_CFG(0, PULLUP);	// nRDYMEM
+}
+
+/*******************************************************
+	Configure system I/O pins
+*******************************************************/
+void pin_configuration_system(void)
+{
+	GPIO_DIRECTION_IN(1); // GPIO_1
+	GPIO_DIRECTION_OUT(2);	GPIO_CLEAR_OUTPUT(2);	// SYS_RESET
+	GPIO_DIRECTION_IN(10); // Not used (nEMU0)
+	CONF_CK13MHZ_EN	 = MUX_CFG(0, PULLOFF);	// CK13MHZ_EN
+	CONF_ABB_IRQ	 = MUX_CFG(0, PULLUP);	// ABB_IRQ
+	CONF_GPIO_5	 = MUX_CFG(1, PULLOFF); // STARTADC
+	CONF_CDO	 = MUX_CFG(0, PULLOFF);	// CDO (I2S)
+	CONF_CSCLK	 = MUX_CFG(0, PULLOFF);	// CSCLK (I2S)
+	CONF_CSYNC	 = MUX_CFG(0, PULLOFF);	// CSYNC (I2S)
+	CONF_NBSCAN	 = MUX_CFG(0, PULLUP);	// nBSCAN
+	CONF_SPARE_3	 = MUX_CFG(0, PULLUP); // Spare3
+	CONF_TDO	 = MUX_CFG(0, PULLOFF);	// TDO
+
+// JTAG pulls are disabled on I-Sample due to external buffers.
+//	CONF_TCK	 = MUX_CFG(0, PULLDOWN);	// TCK
+//	CONF_TDI	 = MUX_CFG(0, PULLUP);	// TDI
+//	CONF_TMS	 = MUX_CFG(0, PULLUP);	// TMS
+//	CONF_TRST	 = MUX_CFG(0, PULLUP);	// TRST
+	CONF_TCK	 = MUX_CFG(0, PULLOFF);	// TCK
+	CONF_TDI	 = MUX_CFG(0, PULLOFF);	// TDI
+	CONF_TMS	 = MUX_CFG(0, PULLOFF);	// TMS
+	CONF_TRST	 = MUX_CFG(0, PULLOFF);	// TRST
+
+	CONF_VDR	 = MUX_CFG(0, PULLOFF);	// VDR
+	CONF_VFSRX	 = MUX_CFG(0, PULLDOWN);	// VFSRX
+	CONF_GPIO_1	 = MUX_CFG(0, PULLUP); // Not used GPIO
+	CONF_GPIO_2	 = MUX_CFG(0, PULLOFF); // SYS_RESET
+	CONF_GPIO_10	 = MUX_CFG(1, PULLUP); // Not used (NEMU0)
+	CONF_GPIO_12	 = MUX_CFG(2, PULLOFF); // TSPACT10
+}
+
+/*******************************************************
+	Configure LCD and NAND Flash I/O pins
+   Mode = 0 : LCD functional. NAND not functional
+   Mode = 1 : NAND functional. LCD not functional
+*******************************************************/
+void pin_configuration_lcd_nand(int mode)
+{
+	CONF_ND_CE1	 = MUX_CFG(0, PULLOFF);
+	CONF_GPIO_18	 = MUX_CFG(1, PULLOFF); // ND_WE
+	CONF_GPIO_31	 = MUX_CFG(1, PULLOFF); // ND_RE
+	CONF_GPIO_32	 = MUX_CFG(1, PULLOFF); // ND_CLE
+	CONF_GPIO_33	 = MUX_CFG(1, PULLOFF); // ND_ALE
+	CONF_GPIO_34	 = MUX_CFG(1, PULLUP); // ND_RDY
+	CONF_LCD_NRST	 = MUX_CFG(0, PULLOFF);
+	CONF_LCD_RNW	 = MUX_CFG(0, PULLOFF);
+	CONF_LCD_RS	 = MUX_CFG(0, PULLOFF);
+	CONF_LCD_STB	 = MUX_CFG(0, PULLOFF);
+	CONF_GPIO_13	 = MUX_CFG(1, PULLOFF); // LCD_NCS0
+	switch(mode)
+		{
+			case 0: // LCD
+				CONF_LCD_DATA_0	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_1	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_2	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_3	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_4	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_5	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_6	 = MUX_CFG(0, PULLOFF);
+				CONF_LCD_DATA_7	 = MUX_CFG(0, PULLOFF);
+			break;
+			case 1: // NAND
+				CONF_LCD_DATA_0	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_1	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_2	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_3	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_4	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_5	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_6	 = MUX_CFG(3, PULLOFF);
+				CONF_LCD_DATA_7	 = MUX_CFG(3, PULLOFF);
+			break;
+		}
+}
+
+/*******************************************************
+	Configure keypad pins
+*******************************************************/
+void pin_configuration_keypad(void)
+{
+	CONF_GPIO_8	 = MUX_CFG(0, PULLUP); // KBR4
+	CONF_GPIO_9	 = MUX_CFG(0, PULLOFF); // KBC4
+	CONF_KBC_0	 = MUX_CFG(0, PULLOFF);
+	CONF_KBC_1	 = MUX_CFG(0, PULLOFF);
+	CONF_KBC_2	 = MUX_CFG(0, PULLOFF);
+	CONF_KBC_3	 = MUX_CFG(0, PULLOFF);
+	CONF_KBR_0	 = MUX_CFG(0, PULLUP);
+	CONF_KBR_1	 = MUX_CFG(0, PULLUP);
+	CONF_KBR_2	 = MUX_CFG(0, PULLUP);
+	CONF_KBR_3	 = MUX_CFG(0, PULLUP);
+}
+
+/*******************************************************
+	Configure SIM I/O pins
+*******************************************************/
+void pin_configuration_sim(void)
+{
+	CONF_SIM_CLK	 = MUX_CFG(0, PULLOFF);
+	CONF_SIM_IO	 = MUX_CFG(0, PULLOFF);
+	CONF_SIM_PWCTRL	 = MUX_CFG(0, PULLOFF);
+	CONF_SIM_RST	 = MUX_CFG(0, PULLOFF);
+}
+
+/*******************************************************
+	Configure radio I/O pins
+*******************************************************/
+void pin_configuration_radio(void)
+{
+	CONF_TSPACT_11	 = MUX_CFG(0, PULLOFF);
+	CONF_TSPACT_12	 = MUX_CFG(0, PULLOFF);
+	CONF_TSPACT_13	 = MUX_CFG(0, PULLOFF);
+	CONF_TSPACT_14	 = MUX_CFG(0, PULLOFF);
+	CONF_TSPACT_15	 = MUX_CFG(0, PULLOFF);
+}
+
+/*******************************************************
+	Configure USB I/O pins
+*******************************************************/
+void pin_configuration_usb(void)
+{
+	CONF_USB_BOOT	 = MUX_CFG(0, PULLOFF);
+	CONF_USB_DAT	 = MUX_CFG(0, PULLDOWN);
+	CONF_USB_RCV	 = MUX_CFG(0, PULLDOWN);
+	//CONF_USB_SE0	 = MUX_CFG(0, PULLUP);  // to reduce 130 uA
+	CONF_USB_SE0	 = MUX_CFG(0, PULLOFF);  // to reduce 130 uA
+	CONF_USB_TXEN	 = MUX_CFG(0, PULLOFF);
+}
+
+/*******************************************************
+	Configure Camera and IrDA I/O pins
+   Mode = 0 : IrDA functional. Camera not functional
+   Mode = 1 : Camera functional. IrDA not functional
+  Use mode 1 ONLY when camera is active i.e. use
+  mode 0 during sleep
+*******************************************************/
+void pin_configuration_camera_irda(int mode)
+{
+	GPIO_DIRECTION_OUT(17);	GPIO_SET_OUTPUT(17);	// CAM_PWDN
+	GPIO_DIRECTION_OUT(11);	GPIO_SET_OUTPUT(11);	// Golden eye sleep
+	GPIO_DIRECTION_OUT(35);	GPIO_CLEAR_OUTPUT(35);	// LED_TRCH
+	GPIO_DIRECTION_OUT(4);	GPIO_SET_OUTPUT(4);	// nCAM_RST
+	GPIO_DIRECTION_OUT(20);	GPIO_CLEAR_OUTPUT(20); // CAM_D_3
+	GPIO_DIRECTION_OUT(19);	GPIO_CLEAR_OUTPUT(19); // CAM_HS
+	GPIO_DIRECTION_OUT(21);	GPIO_CLEAR_OUTPUT(21); // CAM_LCLK
+	GPIO_DIRECTION_OUT(36);	GPIO_SET_OUTPUT(36);	// IrDA_SD
+	CONF_GPIO_36	 = MUX_CFG(0, PULLOFF); // IRDA_SD
+	CONF_GPIO_11	 = MUX_CFG(1, PULLOFF); // Golden eye sleep (NEMU1)
+	CONF_GPIO_4	 = MUX_CFG(0, PULLOFF); // CAM_RESET
+	CONF_GPIO_35	 = MUX_CFG(0, PULLOFF); // LED_TORCH
+	CONF_GPIO_17	 = MUX_CFG(0, PULLOFF); // CAM_PWDN
+	CONF_GPIO_23	 = MUX_CFG(1, PULLDOWN);	// SPI_CLK
+	CONF_GPIO_24	 = MUX_CFG(1, PULLDOWN);	// SPI_DATA_MISO
+	CONF_GPIO_25	 = MUX_CFG(1, PULLDOWN);	// SPI_DATA_MOSI
+	CONF_GPIO_26	 = MUX_CFG(1, PULLUP);	// SPI_NCS0
+	CONF_GPIO_27	 = MUX_CFG(1, PULLUP);	// SPI_NCS1
+	CONF_GPIO_22	 = MUX_CFG(1, PULLOFF); // CAM_XCLK
+	switch(mode)
+		{
+			case 0: // IrDA or sleep
+				CONF_GPIO_47	 = MUX_CFG(1, PULLUP); // IrDA RXIR
+				CONF_GPIO_0	 = MUX_CFG(1, PULLOFF); // IrDA TXIR
+				CONF_GPIO_7	 = MUX_CFG(5, PULLDOWN); // CAM_D_2
+				CONF_GPIO_20	 = MUX_CFG(0, PULLOFF); // CAM_D_3 = GPIO
+				CONF_ND_NWP	 = MUX_CFG(0, PULLOFF); // CAM_D_4 = ND_NWP
+				CONF_GPIO_30	 = MUX_CFG(3, PULLDOWN); // CAM_D_5
+				CONF_GPIO_29	 = MUX_CFG(3, PULLDOWN); // CAM_D_6
+				CONF_GPIO_28	 = MUX_CFG(3, PULLUP); // CAM_D_7
+				CONF_GPIO_19	 = MUX_CFG(0, PULLOFF); // CAM_HS = GPIO
+				CONF_GPIO_21	 = MUX_CFG(0, PULLOFF); // CAM_LCLK = GPIO
+			break;
+			case 1: // Camera
+				CONF_GPIO_47	 = MUX_CFG(2, PULLOFF); // CAM_D_0 + IrDA
+				CONF_GPIO_0	 = MUX_CFG(2, PULLOFF); // CAM_D_1 + IrDA
+				CONF_GPIO_7	 = MUX_CFG(5, PULLOFF); // CAM_D_2
+				CONF_GPIO_20	 = MUX_CFG(2, PULLOFF); // CAM_D_3
+				CONF_ND_NWP	 = MUX_CFG(2, PULLOFF); // CAM_D_4
+				CONF_GPIO_30	 = MUX_CFG(3, PULLOFF); // CAM_D_5
+				CONF_GPIO_29	 = MUX_CFG(3, PULLOFF); // CAM_D_6
+				CONF_GPIO_28	 = MUX_CFG(3, PULLOFF); // CAM_D_7
+				CONF_GPIO_19	 = MUX_CFG(1, PULLOFF); // CAM_HS
+				CONF_GPIO_21	 = MUX_CFG(1, PULLOFF); // CAM_LCLK
+			break;
+		}
+}
+
+//<-- Init Added for Power Management
+
+/*
+ * Init_Drivers
+ *
+ * Performs Drivers Initialization.
+ */
+void Set_Switch_ON_Cause(void);
+void Init_Drivers(void)
+{
+
+#if (CHIPSET==15)
+	bspI2c_init();
+	bspTwl3029_init();
+
+	#if (OP_L1_STANDALONE == 0)
+		Set_Switch_ON_Cause();
+	#endif
+
+
+	/* Turn on DRP We will make VRMCC to device group Modem
+	 * And Switch it on.
+	 */
+	bspTwl3029_Power_setDevGrp(NULL,BSP_TWL3029_POWER_VRMMC,BSP_TWL3029_POWER_DEV_GRP_MODEM);
+	wait_ARM_cycles(convert_nanosec_to_cycles(100000*2));
+    bspTwl3029_Power_enable(NULL,BSP_TWL3029_POWER_VRMMC,BSP_TWL3029_POWER_STATE_ACTIVE);
+#endif
+
+#if (CHIPSET!=15)
+  #if ABB_SEMAPHORE_PROTECTION
+    // Create the ABB semaphore
+    ABB_Sem_Create();
+  #endif  // SEMAPHORE_PROTECTION
+#endif
+
+  #if (OP_L1_STANDALONE == 0)
+    /*
+     * Initialize FFS invoking restore procedure by MPU-S
+     */
+    #if ((BOARD == 35) || (BOARD == 46))
+      GC_FfsRestore();
+    #endif
+
+    /*
+     * FFS main initialization.
+     */
+
+    ffs_main_init();
+
+
+    /*
+     * Initialize Riviera manager and create tasks thanks to it.
+     */
+#if (CHIPSET!=15) || (REMU==0)
+    rvf_init();
+    rvm_init();			/* A-M-E-M-D-E-D!	*/
+    create_tasks();
+#endif
+    /*
+     * SIM Main Initialization.
+     */
+    #if (CHIPSET!=15)
+    	SIM_Initialize ();
+    #else
+	bspUicc_bootInit();
+    #endif
+  #endif
+}
+
+#if (PSP_STANDALONE == 0)
+/*
+ * l1_create_HISR
+ *
+ * Create L1 HISR.
+ */
+void l1_create_HISR (void)
+{
+  STATUS status;
+
+  #if (OP_L1_STANDALONE == 0)
+    // Fill the entire stack with the pattern 0xFE
+    memset (layer_1_sync_stack, 0xFE, LAYER_1_SYNC_STACK_SIZE);
+  #endif
+
+  status = NU_Create_HISR (&layer_1_sync_HISR,
+                           "L1_HISR",
+                           layer_1_sync_HISR_entry,
+  #if (OP_L1_STANDALONE == 0)
+                           1,
+                           layer_1_sync_stack,
+                           LAYER_1_SYNC_STACK_SIZE);
+  #else
+                           1,
+                           layer_1_sync_stack,
+                           sizeof(layer_1_sync_stack));
+  #endif
+
+  #if (L1_EXT_AUDIO_MGT)
+    // Create HISR for Ext MIDI activity
+    //==================================
+    status += NU_Create_HISR(&EXT_AUDIO_MGT_hisr,
+                             "H_EXT_AUDIO_MGT",
+                             Cust_ext_audio_mgt_hisr,
+                             2,
+                             ext_audio_mgt_hisr_stack,
+                             sizeof(ext_audio_mgt_hisr_stack));
+  #endif
+
+  #if ( (L1_MP3 == 1) || (L1_MIDI == 1) || (L1_AAC == 1) || (L1_DYN_DSP_DWNLD == 1) )    // equivalent to an API_HISR flag
+    status += NU_Create_HISR(&apiHISR,
+                             "API_HISR",
+                             api_hisr,
+                             2,
+                             API_HISR_stack,
+                             sizeof(API_HISR_stack));
+  #endif // (L1_MP3 == 1) || (L1_MIDI == 1) || (L1_AAC == 1) || (L1_DYN_DSP_DWNLD == 1)
+
+  #if (FF_L1_IT_DSP_USF == 1) || (FF_L1_IT_DSP_DTX == 1) // equivalent to an API_MODEM_HISR flag
+    // Create HISR for USF  DSP interrupt !!!!. This HISR needs
+    // to have the highest priority since the USF status needs
+    // to be known before the next block starts.
+    //========================================================
+    status += NU_Create_HISR(&api_modemHISR,
+                             "MODEM",
+                             api_modem_hisr,
+                             1,
+                             API_MODEM_HISR_stack,
+                             sizeof(API_MODEM_HISR_stack));
+  #endif
+
+  assert (status == 0);
+}
+
+
+void l1_create_ISR (void)
+{
+  l1_create_HISR();
+}
+#endif
+
+#endif /* (CODE_VERSION != SIMULATION) */
+
+
+
+/*
+ * Init_Unmask_IT
+ *
+ * Unmask all used interrupts.
+ */
+
+void Init_Unmask_IT (void)
+{
+  #if (CODE_VERSION != SIMULATION)
+    /* Reset all current interrupts */
+    #if (CHIPSET == 12) || (CHIPSET == 15)
+      F_INTH2_VALID_NEXT(C_INTH_IRQ);   /* Reset current IT in INTH2 IRQ */
+      F_INTH_VALID_NEXT(C_INTH_IRQ);   /* Reset current IT in INTH IRQ */
+      F_INTH_VALID_NEXT(C_INTH_FIQ);   /* Reset current IT in INTH FIQ */
+      F_INTH_RESET_ALL_IT;   /* Reset all IRQ/FIQ source */
+    #elif ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11))
+      INTH_RESETALLIT;
+      INTH_CLEAR;                 /* reset IRQ/FIQ source */
+    #endif
+
+    // Disable all the IRQs of ARM before unmasking the interrupts. And enable them once the unmasking is
+    // complete. This will ensure that no context switch happens due to coming of an already unmasked interrupt
+    // before completing the unmasking of the rest of the interrupts. If the context switch happens in
+    // before all the interrupts have been unmasked, then the control will never return to this function
+    //since it will go to TCT_Scheduler() and so some interrupts may remain masked.
+    INT_DisableIRQ();
+
+    // SL: TEMPORARY FIX FOR BUG ON P2
+    // FRAME INTERRUPT STAY MASKED
+    #if ((BOARD == 35) || (BOARD == 46))
+      INTH_ENABLEONEIT(IQ_FRAME);
+    #endif
+    // TEMPORARY FIX FOR BUG ON P2
+
+
+    /* Enable Uart Modem and IrDA interrupts */
+    #if ((((TRACE_TYPE==1) || (TRACE_TYPE==2) || (TRACE_TYPE==3) || \
+          (TESTMODE) || (TRACE_TYPE==7)) && (OP_L1_STANDALONE == 1)) || \
+         (OP_L1_STANDALONE == 0))
+
+      #if (CHIPSET == 12) || (CHIPSET == 15)
+        F_INTH_ENABLE_ONE_IT (C_INTH_UART_IRDA_IT);   /* Enable UART_IRDA interrupts */
+        #if (CHIPSET == 12)
+        	F_INTH_ENABLE_ONE_IT(C_INTH_UART_MODEM1_IT);   /* Enable UART_MODEM interrupts */
+	#endif
+      #else
+      	#if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || \
+             (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11))
+          #if ((BOARD != 35) && (BOARD != 46))
+            INTH_ENABLEONEIT (IQ_UART_IRDA_IT);   /* Enable UART_IRDA interrupts */
+          #endif
+        #endif
+        	INTH_ENABLEONEIT (IQ_UART_IT);   /* Enable UART_MODEM interrupts */
+      #endif
+
+      #if (OP_L1_STANDALONE == 1)
+        #if (CHIPSET == 12)
+          F_INTH_ENABLE_ONE_IT (C_INTH_UART_MODEM2_IT);   /* Enable UART_MODEM2 interrupts */
+        #endif
+      #endif   /* (OP_L1_STANDALONE == 1) */
+
+    #endif   /* (TRACE_TYPE ...) || (OP_L1_STANDALONE == 0) */
+
+    /* Enable other interrupts */
+    #if (OP_L1_STANDALONE == 1)
+      if (l1_config.pwr_mngt == PWR_MNGT)
+      {
+
+        #if GEMINI_TIMER
+          #if (CHIPSET == 12) || (CHIPSET == 15)
+            F_INTH_ENABLE_ONE_IT(C_INTH_TIMER1_IT);   /* Enable Timer1 interrupt */
+          #else
+            INTH_ENABLEONEIT(IQ_TIM1);   /* Enable Timer1 interrupt */
+          #endif
+        #endif
+
+        #if EXT_IRQ
+          #if (CHIPSET == 12) || (CHIPSET == 15)
+            F_INTH_ENABLE_ONE_IT (C_INTH_ABB_IRQ_IT);   /* Enable ABB_IRQ_IT EXT_IRQ */
+          #else
+            INTH_ENABLEONEIT(IQ_EXT);   /* Enable External interrupt */
+          #endif
+      #endif
+      }
+
+    #else
+      #if ((CHIPSET == 12) || (CHIPSET == 15))
+        F_INTH_ENABLE_ONE_IT(C_INTH_KEYBOARD_IT);
+      #else
+        #if ((BOARD == 35) || (BOARD == 46))
+          INTH_ENABLEONEIT (IQ_ICR);
+        #else
+          INTH_ENABLEONEIT (IQ_ARMIO);   /* Enable Keypad/GPIO Interrupt */
+        #endif
+      #endif   /* (CHIPSET == 12) */
+    #endif   /* OP_L1_STANDALONE */
+
+
+      #if (CHIPSET == 12) || (CHIPSET == 15)
+        //enable LEAD2 interrupt
+        F_INTH_ENABLE_ONE_IT (C_INTH_API_IT);
+      #else
+        //enable LEAD2 interrupt
+        INTH_ENABLEONEIT(IQ_API);
+      #endif
+
+
+    /* Enable TDMA interrupt */
+    #if ((CHIPSET == 12) || (CHIPSET == 15))
+	 #if (PSP_STANDALONE == 0)
+      F_INTH_ENABLE_ONE_IT (C_INTH_FRAME_IT);
+	 #endif
+    #else
+      INTH_ENABLEONEIT(IQ_FRAME);
+    #endif
+//-->  to enable DMA Interrupt for Lite
+	#if ((CHIPSET == 15) )
+		 #if (LOCOSTO_LITE == 1)
+      			F_INTH_ENABLE_ONE_IT (C_INTH_DMA_IT);
+	 	#endif
+    	#endif
+//<--  to enable DMA Interrupt for Lite
+
+    #if ( (L1_MP3 == 1) || (L1_MIDI == 1) || (L1_AAC == 1) || (L1_DYN_DSP_DWNLD == 1) )
+      #if (CHIPSET == 12) || (CHIPSET == 15)
+        F_INTH_ENABLE_ONE_IT(C_INTH_API_IT);  // Enable API interrupt
+      #elif (CHIPSET == 10)
+        #if (L1_DYN_DSP_DWNLD == 1)
+
+         //enable interrupt
+         INTH_ENABLEONEIT (IQ_API);
+
+        #endif // L1_DYN_DSP_DWNLD == 1
+      #endif // CHIPSET
+    #endif  // (L1_MP3 == 1) || (L1_MIDI == 1) || (L1_AAC ==1) || (L1_DYN_DSP_DWNLD == 1)
+    // Enable the ARM IRQs once all the interrupts have been unmasked.
+    INT_EnableIRQ();
+  #endif   /* NO SIMULATION */
+}
+
+
+/*
+ * Init_Serial_Flows
+ *
+ * Performs Serialswitch + related serial data flows initialization.
+ */
+
+void Init_Serial_Flows (void)
+{
+  #if (OP_L1_STANDALONE == 0)
+
+    /*
+     * Initialize Serial Switch module.
+     */
+    #if ((BOARD==35) || (BOARD == 46))
+      SER_InitSerialConfig (GC_GetSerialConfig());
+    #else
+      SER_InitSerialConfig (&appli_ser_cfg_info);
+    #endif
+    /*
+     * Then Initialize the Serial Data Flows and the associated UARTs:
+     *  - G2-3 Trace if GSM/GPRS Protocol Stack
+     *  - AT-Cmd/Fax & Data Flow
+     *
+     * Layer1/Riviera Trace Flow and Bluetooth HCI Flow are initialized
+     * by the appropriate SW Entities.
+     *
+     * G2-3 Trace => No more Used
+     */
+    SER_tr_Init(SER_PROTOCOL_STACK, TR_BAUD_38400, NULL);
+
+    /*
+     * Fax & Data / AT-Command Interpreter Serial Data Flow Initialization
+     */
+
+    #if ((BOARD != 35) && (BOARD != 46))
+      (void) SER_fd_Initialize ();
+    #endif
+  #else    /* OP_L1_STANDALONE */
+
+    #if (TESTMODE || (TRACE_TYPE==1) || (TRACE_TYPE==2) || (TRACE_TYPE==3) || (TRACE_TYPE==6) || (TRACE_TYPE==7))
+      #if ((BOARD == 35) || (BOARD == 46))
+        ser_cfg_info[UA_UART_0] = '0';
+      #else
+        ser_cfg_info[UA_UART_0] = 'G';
+      #endif
+      #if (CHIPSET !=15)
+      ser_cfg_info[UA_UART_1] = 'R'; // Riviear Demux on UART MODEM
+      #else
+      ser_cfg_info[UA_UART_0] = 'R'; // Riviear Demux on UART MODEM
+      #endif
+
+      /* init Uart Modem */
+      SER_InitSerialConfig (&appli_ser_cfg_info);
+
+      #if TESTMODE || (TRACE_TYPE == 1) || (TRACE_TYPE == 7)
+        SER_tr_Init (SER_LAYER_1, TR_BAUD_115200, rvt_activate_RX_HISR);
+
+        rvt_register_id("OTHER",&trace_id,(RVT_CALLBACK_FUNC)NULL);
+      #else
+        SER_tr_Init (SER_LAYER_1, TR_BAUD_38400, NULL);
+      #endif
+
+      L1_trace_string(" \n\r");
+
+    #endif   /* TRACE_TYPE */
+
+  #endif   /* OP_L1_STANDALONE */
+}
+
+// From this point, everything is compiled to execute in internal RAM
+
+#if (((MOVE_IN_INTERNAL_RAM == 1) ^ (GSM_IDLE_RAM != 0)) && (GSM_IDLE_RAM != 0))
+#pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_START
+#if (CODE_VERSION != SIMULATION)
+
+  #if ((CHIPSET == 12) || (CHIPSET==15))
+
+    #if GSM_IDLE_RAM_DEBUG
+      void flash_access_handler(void)
+      {
+        l1s.gsm_idle_ram_ctl.killing_flash_access++;
+      }
+      void ext_ram_access_handler(void)
+      {
+        l1s.gsm_idle_ram_ctl.killing_ext_ram_access++;
+      }
+    #endif
+
+    void ext_ram_irq_inth_handler(void)
+    {
+      if (!READ_TRAFFIC_CONT_STATE)
+      CSMI_TrafficControllerOn();
+      a_inth_config[F_INTH_GET_IRQ].d_it_handler();
+    }
+
+    void ext_ram_fiq_inth_handler(void)
+    {
+      if (!READ_TRAFFIC_CONT_STATE)
+      CSMI_TrafficControllerOn();
+      a_inth_config[F_INTH_GET_FIQ].d_it_handler();
+    }
+  #endif
+#endif // (CODE_VERSION != SIMULATION)
+#pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_END
+#endif
+
+#if !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM !=0))
+#pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_START
+
+#if (PSP_STANDALONE == 0)
+/*-------------------------------------------------------*/
+/* TP_FrameIntHandler() Low Interrupt service routine    */
+/*-------------------------------------------------------*/
+/* Parameters :                                          */
+/* Return     :                                          */
+/* Functionality :  activate Hisr on each frame interrupt*/
+/*-------------------------------------------------------*/
+void TP_FrameIntHandler(void)
+{
+
+  #if (OP_L1_STANDALONE == 1)
+
+    #if (TRACE_TYPE==1)
+       if (trace_info.current_config->l1_dyn_trace & 1<<L1_DYN_TRACE_L1S_CPU_LOAD)
+       {
+         TM_ResetTimer (2, 0xFFFF, 1, 0);
+         TM_StartTimer (2);
+       }
+    #endif
+
+    #if (TRACE_TYPE==6)
+       TM_ResetTimer (2, 0xFFFF, 1, 0);
+       TM_StartTimer (2);
+    #endif
+
+    #if (TRACE_TYPE==7)   /* CPU_LOAD */
+       l1_cpu_load_start();
+    #endif
+
+  #else
+
+    #if (TRACE_TYPE == 4) && (TI_NUC_MONITOR != 1)
+      // TM_ResetTimer (2, TIMER_RESET_VALUE, 1, 0);
+      // TM_StartTimer (2);
+    #endif
+
+
+    #if (TI_NUC_MONITOR == 1)
+       /* Copy LISR buffer in Log buffer each end of HISR */
+       ti_nuc_monitor_tdma_action();
+    #endif
+
+    #if WCP_PROF == 1
+       prf_LogFNSwitch(l1s.actual_time.fn_mod42432);
+    #endif
+
+  #endif   /* OP_L1_STANDALONE */
+
+  NU_Activate_HISR(&layer_1_sync_HISR);   /* Activate HISR interrupt */
+
+  #if (OP_L1_STANDALONE == 0)
+    #if (WCP_PROF == 1)
+      #if (PRF_CALIBRATION == 1)
+      NU_Activate_HISR(&prf_CalibrationHISR);
+      #endif
+    #endif
+  #endif
+
+}
+#endif
+
+/*
+ * layer_1_sync_HISR_entry
+ *
+ * HISR associated to layer 1 sync.
+ */
+
+void layer_1_sync_HISR_entry (void)
+{
+#if (PSP_STANDALONE==0)
+   // Call Synchronous Layer1
+   hisr();
+#endif
+}
+#pragma GSM_IDLE_DUPLICATE_FOR_INTERNAL_RAM_END
+#endif // !((MOVE_IN_INTERNAL_RAM == 1) && (GSM_IDLE_RAM !=0))
+
+#if (PSP_STANDALONE == 1)
+
+#include "nucleus.h"
+#include "tc_defs.h"
+
+extern TC_PROTECT TCD_System_Protect;
+
+/*-------------------------------------------------------*/
+ /* int OS_system_protect()                               */
+ /*-------------------------------------------------------*/
+ /* Parameters : none                                     */
+ /* Return     : The Thread Control Block of the thread   */
+ /*              which already owns the protection or     */
+ /*              0 if no protection                       */
+ /* Functionality : Checks whether the system structures  */
+ /*                 are already protected or not          */
+ /*-------------------------------------------------------*/
+ void OS_system_protect (void)
+ {
+   NU_Protect((NU_PROTECT*) &TCD_System_Protect);
+ }
+
+ /*-------------------------------------------------------*/
+ /* int OS_system_Unprotect()                             */
+ /*-------------------------------------------------------*/
+ /* Parameters : none                                     */
+ /* Return     :                                          */
+ /* Functionality : unprotect the system structures       */
+ /*-------------------------------------------------------*/
+ void OS_system_Unprotect (void)
+ {
+   NU_Unprotect();
+ }
+
+void bspDummy_detect(void* a,int b, void* c)
+{
+	return;
+}
+
+void bspDummy_remove(int a)
+{
+	return;
+}
+
+void Init_Watchdog_Timer(void)
+{
+/* This code is for PSP STANDALONE Build Only */
+/* WatchDog will be used by DAR enity, so using TIMER1 for OS Ticks
+   This will give tick period roughly equle to 4.5 ms which approx
+   Frame Interrupt timing */
+   Dtimer1_Init_cntl(0XE9, 1, 0x07, 1);
+   Dtimer1_Start(1);
+   F_INTH_ENABLE_ONE_IT(C_INTH_TIMER1_IT);
+   bspUicc_drvRegister((BspUicc_CardPresentDetectHandler)bspDummy_detect,
+   	(BspUicc_CardAbsentDetectHandler) bspDummy_remove);
+}
+
+#endif