/* ** ################################################################### ** Processors: MIMXRT1062CVJ5A ** MIMXRT1062CVL5A ** MIMXRT1062DVJ6A ** MIMXRT1062DVL6A ** MIMXRT1062DVN6B ** MIMXRT1062XVN5B ** ** Compiler: IAR ANSI C/C++ Compiler for ARM ** Reference manual: IMXRT1060RM Rev.3, 07/2021 | IMXRT106XSRM Rev.0 ** Version: rev. 0.2, 2022-03-25 ** Build: b220401 ** ** Abstract: ** Linker file for the IAR ANSI C/C++ Compiler for ARM ** ** Copyright 2016 Freescale Semiconductor, Inc. ** Copyright 2016-2022 NXP ** All rights reserved. ** ** SPDX-License-Identifier: BSD-3-Clause ** ** http: www.nxp.com ** mail: support@nxp.com ** ** ################################################################### */ define symbol m_interrupts_start = 0x80000000; define symbol m_interrupts_end = 0x800003FF; define symbol m_text_start = 0x80000400; define symbol m_text_end = 0x801FFFFF; define symbol m_data_start = 0x20000000; define symbol m_data_end = 0x2001FFFF; define symbol m_data2_start = 0x20200000; define symbol m_data2_end = 0x202BFFFF; define symbol m_data3_start = 0x80200000; define symbol m_data3_end = 0x81DFFFFF; define symbol m_ncache_start = 0x81E00000; define symbol m_ncache_end = 0x81FFFFFF; define symbol m_qacode_start = 0x00000000; define symbol m_qacode_end = 0x0001FFFF; /* Sizes */ if (isdefinedsymbol(__stack_size__)) { define symbol __size_cstack__ = __stack_size__; } else { define symbol __size_cstack__ = 0x0400; } if (isdefinedsymbol(__heap_size__)) { define symbol __size_heap__ = __heap_size__; } else { define symbol __size_heap__ = 0x0400; } define exported symbol __NCACHE_REGION_START = m_ncache_start; define exported symbol __NCACHE_REGION_SIZE = m_ncache_end - m_ncache_start + 1; define exported symbol __VECTOR_TABLE = m_interrupts_start; define exported symbol __VECTOR_RAM = m_interrupts_start; define exported symbol __RAM_VECTOR_TABLE_SIZE = 0x0; define exported symbol __RTT_HEAP_END = m_data2_end-__size_cstack__; define memory mem with size = 4G; define region TEXT_region = mem:[from m_interrupts_start to m_interrupts_end] | mem:[from m_text_start to m_text_end]; define region QACODE_region = mem:[from m_qacode_start to m_qacode_end]; define region DATA_region = mem:[from m_data_start to m_data_end]; define region DATA2_region = mem:[from m_data2_start to m_data2_end-__size_cstack__]; define region DATA3_region = mem:[from m_data3_start to m_data3_end]; define region CSTACK_region = mem:[from m_data2_end-__size_cstack__+1 to m_data2_end]; define region NCACHE_region = mem:[from m_ncache_start to m_ncache_end]; define block CSTACK with alignment = 8, size = __size_cstack__ { }; define block HEAP with alignment = 8, size = __size_heap__ { }; define block RW { first readwrite, section m_usb_dma_init_data }; define block ZI with alignment = 32 { first zi, section m_usb_dma_noninit_data }; define block NCACHE_VAR { section NonCacheable , section NonCacheable.init }; define block QACCESS_CODE { section CodeQuickAccess }; define block QACCESS_DATA { section DataQuickAccess }; initialize by copy { readwrite, section .textrw, section CodeQuickAccess, section DataQuickAccess }; do not initialize { section .noinit }; place at address mem: m_interrupts_start { readonly section .intvec }; place in TEXT_region { readonly }; place in DATA2_region { block RW }; place in DATA2_region { block ZI }; if (isdefinedsymbol(__heap_noncacheable__)) { place in NCACHE_region { last block HEAP }; } else { place in DATA2_region { last block HEAP }; } place in NCACHE_region { block NCACHE_VAR }; place in QACODE_region { block QACCESS_CODE }; place in DATA_region { block QACCESS_DATA }; place in CSTACK_region { block CSTACK };